Michel Bierlaire

Journal publications [151]

Accepted for publication

Beine M., Bierlaire M., Docquier F. (to appear). New York, Abu Dhabi, London or Stay at Home? Using a Cross-Nested Logit Model to Identify Complex Substitution Patterns in Migration. Journal of Economic Geography (accepted for publication on Jan 16, 2024)


@Article{BeinBierDocq24,
  author = {Michel Beine and Michel Bierlaire and Fr\'ed\'eric Docquier},
  title = {New York, Abu Dhabi, London or Stay at Home? Using a Cross-Nested Logit Model to Identify Complex Substitution Patterns in Migration},
  journal = {Journal of Economic Geography},
  year = {to appear},
  note = {Accepted on Jan 16, 2024}}}

2024

Obrenovic N., Atac S., Bierlaire M. (2024). Light electric vehicle sharing systems: Functional design of a comprehensive decision making solution. Transportation Research Part A: Policy and Practice 182 (104043)

The functional design of a decision support system for a state-of-the-art vehicle sharing system (VSS) inevitably includes the selection or definition of methodologies for planning and managing the observed VSS. In this paper, our focus is on an innovative VSS that utilizes light electric vehicles. Our goal is to specify the functions of a comprehensive decision making solution for such a VSS through a qualitative and systematic literature and system analysis. To achieve this goal, we rely on the holistic VSS management framework developed in our previous research. As a result of our study, we identify possible solution methodologies or algorithms for implementing functions of the designed decision making solution, and propose the necessary adjustments for their application in the case of light electric vehicles, or note any research gap. With these findings, we provide justified guidance to practitioners in creating these solutions, with the aim of reducing development time.
```
@Article{ObreAtacBier24,
  author = {Nikola Obrenovic and Selin Atac and Michel Bierlaire},
  title = {Light electric vehicle sharing systems: Functional design of a comprehensive decision making solution},
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2024},
  volume = {182},
  number = {104043},
  DOI = {10.1016/j.tra.2024.104043},
  note = {Accepted on Mar 09, 2024}}}
```
Ortelli N., de Lapparent M., Bierlaire M. (2024). Resampling Estimation of Discrete Choice Models. Journal of Choice Modelling 50 (100467)

In the context of discrete choice modeling, the extraction of potential behavioral insights from large datasets is often limited by the poor scalability of maximum likelihood estimation. This paper proposes a simple and fast dataset-reduction method that is specifically designed to preserve the richness of observations originally present in a dataset, while reducing the computational complexity of the estimation process. Our approach, called LSH-DR, leverages locality-sensitive hashing to create homogeneous clusters, from which representative observations are then sampled and weighted. We demonstrate the efficacy of our approach by applying it on a real-world mode choice dataset: the obtained results show that the samples generated by LSH-DR allow for substantial savings in estimation time while preserving estimation efficiency at little cost.
```
@Article{OrteLappBier2024,
  author = {Nicola Ortelli and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Resampling Estimation of Discrete Choice Models},
  journal = {Journal of Choice Modelling},
  year = {2024},
  volume = {50},
  number = {100467},
  DOI = {10.1016/j.jocm.2023.100467},
  note = {Accepted on Dec 20, 2023}}}
```

2023

Rezvany N., Bierlaire M., Hillel T. (2023). Simulating intra-household interactions for in- and out-of-home activity scheduling. Transportation Research Part C: Emerging Technologies 157 (104362)

Various interactions, time arrangements, and constraints exist for individuals scheduling their day as a member of a household, which affect their in-home as well as out-of-home activity schedule. However, the existing activity-based models are mostly based on the individual decision-making process, which are limited in their demonstration of behaviour. We simulate multiple intra-household interaction dimensions within the same framework and capture the coordination of the activity scheduling decisions among all household members. Our approach adopts the Optimisation-based Activity Scheduling Integrating Simultaneous choice dimensions (OASIS) framework, which is at the level of isolated individuals and focuses on out-of-home activity schedules. We jointly simulate in- and out-of-home activities and incorporate interactions into the framework. Our framework contributes to the state-of-the-art in activity-based modelling by explicitly capturing multiple interactions within the same model, such as the allocation of the private vehicle to household members, dividing household maintenance responsibilities, escorting, joint activity participation, and sharing rides. We operationalise the model using time-use-survey data from the United Kingdom. The simulation results demon- strate the ability of the framework to capture complex intra-household interactions. We then demonstrate how these interactions can cause individuals to deviate from their schedules planned in isolation. This is a general framework applicable to different household compositions and available resources.
```
@Article{RezBieHil23,
  author = {Negar Rezvany and Michel Bierlaire and Tim Hillel},
  title = {Simulating intra-household interactions for in- and out-of-home activity scheduling},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2023},
  volume = {157},
  number = {104362},
  DOI = {10.1016/j.trc.2023.104362},
  note = {Accepted on Sep 26, 2023}}}
```
Krueger R., Bierlaire M., Bansal P. (2023). A data fusion approach for ride-sourcing demand estimation: A discrete choice model with sampling and endogeneity corrections . Transportation Research Part C: Emerging Technologies 152 (104180)

Ride-sourcing services offered by companies like Uber and Didi have grown rapidly in the last decade. Understanding the demand for these services is essential for planning and managing modern transportation systems. Existing studies develop statistical models for ride-sourcing demand estimation at an aggregate level due to limited data availability. These models lack foundations in microeconomic theory, ignore competition of ride-sourcing with other travel modes, and cannot be seamlessly integrated into existing individual-level (disaggregate) activity-based models to evaluate system-level impacts of ride-sourcing services. In this paper, we present and apply an approach for estimating ride-sourcing demand at a disaggregate level using discrete choice models and multiple data sources. We first construct a sample of trip-based mode choices in Chicago, USA by enriching household travel survey with publicly available ride-sourcing and taxi trip records. We then formulate a multivariate extreme value-based discrete choice model with sampling and endogeneity corrections to account for the construction of the estimation sample from multiple data sources and endogeneity biases arising from supply-side constraints and surge pricing mechanisms in ride-sourcing systems. Our analysis of the constructed dataset reveals insights into the influence of various socio-economic, land use and built environment features on ride-sourcing demand. We also derive elasticities of ride-sourcing demand relative to travel cost and time. Finally, we illustrate how the developed model can be employed to quantify the welfare implications of ride-sourcing policies and regulations such as terminating certain types of services and introducing ride-sourcing taxes.
```
@Article{KrueBierBans23,
  author = {Rico Krueger and Michel Bierlaire and Prateek Bansal},
  title = {A data fusion approach for ride-sourcing demand estimation: A discrete choice model with sampling and endogeneity corrections },
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2023},
  volume = {152},
  number = {104180},
  DOI = {10.1016/j.trc.2023.104180},
  note = {Accepted on May 17, 2023}}}
```
Gerzinic N., Cats O., van Oort N., Hoogendoorn-Lanser S., Bierlaire M., Hoogendoorn S. (2023). An instance-based learning approach for evaluating the perception of ride-hailing waiting time variability. Travel Behaviour and Society 33 (100616)

Understanding user’s perception of service variability is essential to discern their overall perception of any type of (transport) service. We study the perception of waiting time variability for ride-hailing services. We carried out a stated preference survey in August 2021, yielding 936 valid responses. The respondents were faced with static pre-trip information on the expected waiting time, followed by the actually experienced waiting time for their selected alternative. We analyse this data by means of an instance-based learning (IBL) approach to evaluate how individuals respond to service performance variation and how this impacts their future decisions. Different novel specifications of memory fading, captured by the IBL approach, are tested to uncover which describes the user behaviour best. Additionally, existing and new specification of inertia (habit) are tested. Our model outcomes reveal that the perception of unexpected waiting time is within the expected range of 2–3 times the value-of-time. Travellers seem to place a higher reward on an early departure compared to a penalty for a late departure of equal magnitude. A cancelled service, after having made a booking, results in significant disutility for the passenger and a strong motivation to shift to a different provider. Considering memory decay, our results show that the most recent experience is by far the most relevant for the next decision, with memories fading quickly in importance. The role of inertia seems to gain importance with each additional consecutive choice for the same option, but then resetting back to zero following a shift in behaviour.
```
@Article{GerzCatsVanOHoogBierHoog23,
  author = {Nejc Gerzinic and Oded Cats and Niels {van Oort} and Sascha Hoogendoorn-Lanser and Michel Bierlaire and Serge Hoogendoorn},
  title = {An instance-based learning approach for evaluating the perception of ride-hailing waiting time variability},
  journal = {Travel Behaviour and Society},
  year = {2023},
  volume = {33},
  number = {100616},
  DOI = {10.1016/j.tbs.2023.100616},
  note = {Accepted on Feb 04, 2023}}}
```

Krueger R., Bierlaire M., Gasos T., Bansal P. (2023). Robust discrete choice models with t-distributed kernel errors. Statistics and Computing 33 (2)


@Article{KrueBierGasoBans22,
  author = {Rico Krueger and Michel Bierlaire and Thomas Gasos and Prateek Bansal},
  title = {Robust discrete choice models with t-distributed kernel errors},
  journal = {Statistics and Computing},
  year = {2023},
  volume = {33},
  number = {2},
  DOI = {10.1007/s11222-022-10182-3},
  note = {Accepted on Nov 12, 2022}}}

Pougala J., Hillel T., Bierlaire M. (2023). OASIS: Optimisation-based Activity Scheduling with Integrated Simultaneous choice dimensions. Transportation Research Part C: Emerging Technologies 155


@Article{PougHillBier23,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {OASIS: Optimisation-based Activity Scheduling with Integrated Simultaneous choice dimensions},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2023},
  volume = {155},
  DOI = {10.1016/j.trc.2023.104291

}}}

2022

Manser P., Haering T., Hillel T., Pougala J., Krueger R., Bierlaire M. (2022). Estimating flexibility preferences to resolve temporal scheduling conflicts in activity-based modelling. Transportation

This paper presents a novel activity-based demand model that combines an optimisation framework for continuous temporal scheduling decisions (i.e. activity timings and durations) with traditional discrete choice models for non-temporal choice dimensions (i.e. activity participation, number and type of tours, and destinations). The central idea of our approach is that individuals resolve temporal scheduling conflicts that arise from overlapping activities, e.g. needing to work and desiring to shop at the same time, in order to maximise their daily utility. Flexibility parameters capture behavioural preferences that penalise deviations from desired timings. This framework has three advantages over existing activity-based modelling approaches: (i) the time conflicts between different temporal scheduling decisions including the activity sequence are treated jointly; (ii) flexibility parameters follow a utility maximisation approach; and (iii) the framework can be used to estimate and simulate a city-scale case study in reasonable time. We introduce an estimation routine that allows flexibility parameters to be estimated using real-world observations as well as a simulation routine to efficiently resolve temporal conflicts using an optimisation model. The framework is applied to the full-time workers of a synthetic population for the city of Lausanne, Switzerland. We validate the model results against reported schedules. The results demonstrate the capabilities of our approach to reproduce empirical observations in a real-world case study.
```
@Article{MansHaerHillPougKrueBier22,
  author = {Patrick Manser and Tom Haering and Tim Hillel and Janody Pougala and Rico Krueger and Michel Bierlaire},
  title = {Estimating flexibility preferences to resolve temporal scheduling conflicts in activity-based modelling},
  journal = {Transportation},
  year = {2022},
  DOI = {10.1007/s11116-022-10330-8},
  note = {Accepted on Aug 22, 2022}}}
```

Pacheco M., Gendron B., Sharif Azadeh S., Bierlaire M. (2022). A Lagrangian decomposition scheme for choice-based optimization. Computers & Operations Research 148 :105985


@Article{PachGendSharBier22,
  author = {Meritxell Pacheco and Bernard Gendron and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {A Lagrangian decomposition scheme for choice-based optimization},
  journal = {Computers \& Operations Research},
  year = {2022},
  volume = {148},
  pages = {105985},
  DOI = {10.1016/j.cor.2022.105985},
  note = {Accepted on Jul 29, 2022}}}

Sharif Azadeh S., Atasoy B., Ben-Akiva M., Bierlaire M., Maknoon Y. (2022). Choice-Driven Dial-A-Ride Problem for Demand Responsive Mobility Service. Transportation Research Part B: Methodological 161 :128-149

Urban mobility services face the challenge of planning their operations efficiently while complying with user preferences. In this paper, we introduce a new mathematical model called a choice-driven dial-a-ride problem (CD-DARP) which is a generalization of the dynamic DARP where passenger behavior is integrated in the operational planning using choice models and assortment optimization. We look at two types of mobility services, private and shared. Our problem extends the dynamic DARP by (i) changing its objective function to profit maximization, where both cost and revenue are variables, and (ii) incorporating assortment optimization with routing decisions in a dynamic setting. We propose a pricing scheme based on a choice model designed to offer service alternatives at the time a customer makes a request. We introduce a tailored algorithm to efficiently solve the dynamic CD-DARP. Computational results indicate that our proposed approach outperforms dynamic DARP in terms of reducing routing costs and improving the number of customers served.
```
@Article{SharAtasBenABierMakn22,
  author = {Shadi {Sharif Azadeh} and Bilge Atasoy and Moshe Ben-Akiva and Michel Bierlaire and Yousef Maknoon},
  title = {Choice-Driven Dial-A-Ride Problem for Demand Responsive Mobility Service},
  journal = {Transportation Research Part B: Methodological},
  year = {2022},
  volume = {161},
  pages = {128-149},
  DOI = {10.1016/j.trb.2022.04.008},
  note = {Accepted on Apr 29, 2022}}}
```
Pougala J., Hillel T., Bierlaire M. (2022). Capturing trade-offs between daily scheduling choices. Journal of Choice Modelling 43 (100354)

We propose a new modelling approach for daily activity scheduling which integrates the different daily scheduling choice dimensions (activity participation, location, schedule, duration and transportation mode) into a single optimisation problem. The fundamental behavioural principle behind our approach is that individuals schedule their day to maximise their overall derived utility from the activities they complete, according to their individual needs, constraints, and preferences. By combining mul- tiple choices into a single optimisation problem, our framework is able to capture the complex trade-offs between scheduling decisions for multiple activities. These trade-offs could include how spending longer in one activity will reduce the time- availability for other activities or how the order of activities determines the travel- times. The implemented framework takes as input a set of considered activities, with associated locations and travel modes, and uses these to produce empirical distri- butions of individual schedules from which different daily schedules can be drawn. The model is illustrated using historic trip diary data from the Swiss Mobility and Transport Microcensus. The results demonstrate the ability of the proposed frame- work to generate complex and realistic distributions of starting time and duration for different activities within the tight time constraints. The generated schedules are then compared to the aggregate distributions from the historical data to demonstrate the feasibility and flexibility of our approach.
```
@Article{PougHillBier22,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Capturing trade-offs between daily scheduling choices},
  journal = {Journal of Choice Modelling},
  year = {2022},
  volume = {43},
  number = {100354},
  DOI = {10.1016/j.jocm.2022.100354},
  note = {Accepted on Mar 19, 2022}}}
```

2021

Atac S., Obrenovic N., Bierlaire M. (2021). Vehicle Sharing Systems: A Review and a Holistic Management Framework. EURO Journal on Transportation and Logistics 10 (100033)

Although different vehicle sharing systems (VSSs) use different vehicle types, the management challenges and optimization problems to be solved are similar or even the same. This observation led us to create a generalized and holistic VSS management framework, which aims to be applicable to the system using any vehicle type. The framework components, their mutual relationships, and framework tasks have been identified through a thorough and systematic literature review. Furthermore, the literature is positioned in the line with the framework. Finally, the framework and systematic literature review allowed us to identify gaps in the literature, and interesting research avenues.
```
@Article{AtacObreBier21,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {Vehicle Sharing Systems: A Review and a Holistic Management Framework},
  journal = {EURO Journal on Transportation and Logistics},
  year = {2021},
  volume = {10},
  number = {100033},
  DOI = {10.1016/j.ejtl.2021.100033},
  note = {Accepted on Feb 24, 2021}}}
```

Molyneaux N., Scarinci R., Bierlaire M. (2021). Design and analysis of control strategies for pedestrian flows. Transportation 48 :1767-1807


@Article{MolyScarBier20,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Design and analysis of control strategies for pedestrian flows},
  journal = {Transportation},
  year = {2021},
  volume = {48},
  pages = {1767-1807},
  DOI = {10.1007/s11116-020-10111-1},
  note = {Accepted on Apr 18, 2020}}}

Lederrey G., Lurkin V., Hillel T., Bierlaire M. (2021). Estimation of Discrete Choice Models with Hybrid Stochastic Adaptive Batch Size Algorithms. Journal of Choice Modelling 38 (100226)

The emergence of Big Data has enabled new research perspectives in the discrete choice community. While the techniques to estimate Machine Learning models on a massive amount of data are well established, these have not yet been fully explored for the estimation of statistical Discrete Choice Models based on the random utility framework. In this article, we provide new ways of dealing with large datasets in the context of Discrete Choice Models. We achieve this by proposing new efficient stochastic optimization algorithms and extensively testing them alongside existing approaches. We develop these algorithms based on three main contributions: the use of a stochastic Hessian, the modification of the batch size, and a change of optimization algorithm depending on the batch size. A comprehensive experimental comparison of fifteen optimization algorithms is conducted across ten benchmark Discrete Choice Model cases. The results indicate that the HAMABS algorithm, a hybrid adaptive batch size stochastic method, is the best performing algorithm across the optimization benchmarks. This algorithm speeds up the optimization time by a factor of 23 on the largest model compared to existing algorithms used in practice. The integration of the new algorithms in Discrete Choice Models estimation software will significantly reduce the time required for model estimation and therefore enable researchers and practitioners to explore new approaches for the specification of choice models.
```
@Article{LedeLurkHillBier21,
  author = {Gael Lederrey and Virginie Lurkin and Tim Hillel and Michel Bierlaire},
  title = {Estimation of Discrete Choice Models with Hybrid Stochastic Adaptive Batch Size Algorithms},
  journal = {Journal of Choice Modelling},
  year = {2021},
  volume = {38},
  number = {100226},
  DOI = {10.1016/j.jocm.2020.100226},
  note = {Accepted on May 20, 2020}}}
```
Abou Kasm O., Diabat A., Bierlaire M. (2021). Vessel scheduling with pilotage and tugging considerations. Transportation Research Part E: Logistics and Transportation Review 148

This paper considers vessel scheduling with pilotage and tugging constraints in berthing operations with channel restrictions at seaports. To our knowledge, pilotage and tugging requirements have not been simultaneously considered in the literature. This work proposes a mixed integer programming (MIP) formulation and an exact solution approach, based on constraint separation techniques, to solve the problem. The solution approach is initiated with a heuristic that runs in polynomial time. The approach then adds separation cuts to a relaxed version of the MIP formulation and updates the bounds until an optimal solution has been found. A real case and simulated realistic cases are used to compare the proposed model against the first-come first-serve (FCFS) policy that is traditionally used in vessel scheduling. The results show that significant improvements can be obtained, especially during congestion periods. Finally, a computational study demonstrates that the proposed solution approach is capable of solving real-size cases in a reasonable time.
```
@Article{AbouDiabBier21,
  author = {Omar {Abou Kasm} and Ali Diabat and Michel Bierlaire},
  title = {Vessel scheduling with pilotage and tugging considerations},
  journal = {Transportation Research Part E: Logistics and Transportation Review},
  year = {2021},
  volume = {148},
  DOI = {10.1016/j.tre.2021.102231},
  note = {Accepted on Jan 06, 2021}}}
```

Pacheco M., Bierlaire M., Gendron B., Sharif Azadeh S. (2021). Integrating advanced discrete choice models in mixed integer linear optimization . Transportation Research Part B: Methodological 146 :26-49


@Article{PachSharBierGend21,
  author = {Meritxell Pacheco and Michel Bierlaire and Bernard Gendron and Shadi {Sharif Azadeh}},
  title = {Integrating advanced discrete choice models in mixed integer linear optimization },
  journal = {Transportation Research Part B: Methodological},
  year = {2021},
  volume = {146},
  pages = {26-49},
  DOI = {10.1016/j.trb.2021.02.003},
  note = {Accepted on Feb 09, 2021}}}

Hillel T., Bierlaire M., Elshafie M., Jin Y. (2021). A systematic review of machine learning classification methodologies for modelling passenger mode choice. Journal of Choice Modelling 38 (100221)

Machine Learning (ML) approaches are increasingly being investigated as an alternative to Random Utility Models (RUMs) for modelling passenger mode choice. These approaches have the potential to provide valuable insights into choice modelling research questions. However, the research and the methodologies used are fragmented. Whilst systematic reviews on RUMs for mode choice prediction have long existed and the methods have been well scrutinised for mode choice prediction, the same is not true for ML models. To address this need, this paper conducts a systematic review of ML methodologies for modelling passenger mode choice. The review analyses the methodologies employed within each study to (a) establish the state-of-research frameworks for ML mode choice modelling and (b) identify and quantify the prevalence of methodological limitations in previous studies. A comprehensive search methodology across the three largest online publication databases is used to identify 574 unique records. These are screened for relevance, leaving 70 peer-reviewed articles containing 73 primary studies for data extraction. The studies are reviewed in detail to extract 17 attributes covering five research questions, concerning (i) classification techniques, (ii) datasets, (iii) performance estimation, (iv) hyper-parameter selection, and (v) model analysis. The review identifies ten common methodological limitations. Five are determined to be methodological pitfalls, which are likely to introduce bias in the estimation of model performance. The remaining five are identified as areas for improvement, which may limit the achieved performance of the models considered. A further six general limitations are identified, which highlight gaps in knowledge for future work.
```
@Article{HillBierElshJin21,
  author = {Tim Hillel and Michel Bierlaire and Mohammed Elshafie and Ying Jin},
  title = {A systematic review of machine learning classification methodologies for modelling passenger mode choice},
  journal = {Journal of Choice Modelling},
  year = {2021},
  volume = {38},
  number = {100221},
  DOI = {10.1016/j.jocm.2020.100221},
  note = {Accepted on May 10, 2020}}}
```
Ortelli N., Hillel T., Pereira F., de Lapparent M., Bierlaire M. (2021). Assisted Specification of Discrete Choice Models. Journal of Choice Modelling 39 (100285)

Determining appropriate utility specifications for discrete choice models is time-consuming and prone to errors. As the number of possible functions exponentially grows with the vari- ables under consideration, analysts need to spend increasing amounts of time on searching for good specifications through trial-and-error and expert knowledge. This paper proposes a data-driven algorithm that aims at assisting modelers in their search. Our approach trans- lates the task into a multi-objective combinatorial optimization problem and makes use of a variant of the variable neighborhood search algorithm to generate solutions. We apply the algorithm to a real mode choice dataset as a proof of concept. The results demonstrate its ability to generate high-quality specifications in reasonable amounts of time.
```
@Article{OrteHillCamadeLaBier21,
  author = {Nicola Ortelli and Tim Hillel and Francisco Pereira and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Assisted Specification of Discrete Choice Models},
  journal = {Journal of Choice Modelling},
  year = {2021},
  volume = {39},
  number = {100285},
  DOI = {10.1016/j.jocm.2021.100285},
  note = {Accepted on Mar 16, 2021}}}
```

Bortolomiol S., Lurkin V., Bierlaire M. (2021). Price-based regulation of oligopolistic markets under discrete choice models of demand . Transportation


@Article{BortLurkBier21b,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {Price-based regulation of oligopolistic markets under discrete choice models of demand },
  journal = {Transportation},
  year = {2021},
  DOI = {https://doi.org/10.1007/s11116-021-10217-0},
  note = {Accepted on Jul 23, 2021}}}

Haan J., Garrow L., Marzuoli A., Roy S., Bierlaire M. (2021). Are Commuter Air Taxis Coming to Your City? A Ranking of 40 Cities in the United States. Transportation Research Part C: Emerging Technologies 132 :103392

Given the high levels of congestion that many commuters in the United States experience, the urban air mobility community has been exploring the potential of using a new class of electric vertical takeoff and landing (eVTOL) aircraft for commuters. To date, only a few studies have been conducted that compare how potential air taxi demand across cities varies. This study calculates a measure of air taxi demand for commuters for the 40 most populous combined statistical areas (CSAs) in the U.S. by using: (1) cell phone data to identify regular commuters in cities, (2) census data to associate household income characteristics with commuters, and (3) a mode choice model calibrated from a stated preference survey to predict the number of commuters that would use an air taxi. Air taxi commuter demand is concentrated in a handful of CSAs; the CSAs for New York City, Los Angeles, and Washington, D.C., generate 33 percent of the overall air taxi demand. Results are sensitive to location of existing vertiports, existing ground infrastructure and congestion levels on competing modes, and current commute patterns. A resultant set of online maps of potential air taxi routes allows readers to visualize how air taxi commuter routes differ across CSAs. Results will be of value both to aircraft manufacturers seeking to design air taxi vehicles to serve different cities as well as city planners for identifying where investments in port infrastructure may be needed to support a commuter air taxi service.
```
@Article{HaanGarrMarzRoyBier21,
  author = {Julien Haan and Laurie Garrow and Aude Marzuoli and Satadru Roy and Michel Bierlaire},
  title = {Are Commuter Air Taxis Coming to Your City? A Ranking of 40 Cities in the United States},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2021},
  volume = {132},
  pages = {103392},
  DOI = {10.1016/j.trc.2021.103392},
  note = {Accepted on Sep 11, 2021}}}
```

Binder S., Maknoon Y., Sharif Azadeh S., Bierlaire M. (2021). Passenger-Centric Timetable Rescheduling: A User Equilibrium Approach. Transportation Research Part C: Emerging Technologies 132 :103368


@Article{BindMaknSharBier,
  author = {Stefan Binder and Yousef Maknoon and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {Passenger-Centric Timetable Rescheduling: A User Equilibrium Approach},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2021},
  volume = {132},
  pages = {103368},
  DOI = {10.1016/j.trc.2021.103368},
  note = {Accepted on Aug 26, 2021}}}

Krueger R., Bierlaire M., Daziano R., Rashidi T., Bansal P. (2021). Evaluating the predictive abilities of mixed logit models with unobserved inter- and intra-individual heterogeneity. Journal of Choice Modelling 41 :100323


@Article{KrueBierDaziRashBans,
  author = {Rico Krueger and Michel Bierlaire and Ricardo Daziano and Taha Rashidi and Prateek Bansal},
  title = {Evaluating the predictive abilities of mixed logit models with unobserved inter- and intra-individual heterogeneity},
  journal = {Journal of Choice Modelling},
  year = {2021},
  volume = {41},
  pages = {100323},
  DOI = {10.1016/j.jocm.2021.100323},
  note = {Accepted on Sep 09, 2021}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2021). A simulation-based heuristic to find approximate equilibria with disaggregate demand models. Transportation Science 55 (5):1025-1045


@Article{BortLurkBier21,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {A simulation-based heuristic to find approximate equilibria with disaggregate demand models},
  journal = {Transportation Science},
  year = {2021},
  volume = {55},
  number = {5},
  pages = {1025-1045},
  DOI = {https://doi.org/10.1287/trsc.2021.1071},
  note = {Accepted on Apr 16, 2021}}}

2020

Kim J., Tak S., Bierlaire M., Yeo H. (2020). Trajectory Data Analysis on the Spatial and Temporal Influence of Pedestrian Flow on Path Planning Decision. Sustainability 12 (10419):1-16


@Article{KimTakBierYeo20,
  author = {Jeongyun Kim and Sehyun Tak and Michel Bierlaire and Hwasoo Yeo},
  title = {Trajectory Data Analysis on the Spatial and Temporal Influence of Pedestrian Flow on Path Planning Decision},
  journal = {Sustainability},
  year = {2020},
  volume = {12},
  number = {10419},
  pages = {1-16},
  DOI = {10.3390/su122410419},
  note = {Accepted on Dec 11, 2020}}}

Rodrigues F., Ortelli N., Bierlaire M., Pereira F. (2020). Bayesian Automatic Relevance Determination for Utility Function Specification in Discrete Choice Models. IEEE Transactions on Intelligent Transportation Systems


@Article{RodrOrteBierPere20,
  author = {Filipe Rodrigues and Nicola Ortelli and Michel Bierlaire and Francisco Pereira},
  title = {Bayesian Automatic Relevance Determination for Utility Function Specification in Discrete Choice Models},
  journal = {IEEE Transactions on Intelligent Transportation Systems},
  year = {2020},
  DOI = {10.1109/TITS.2020.3031965},
  note = {Accepted on Oct 14, 2020}}}

Mueller F., Guerster M., Obrenovic N., Bierlaire M. (2020). Can regional railway become emission-free with recently announced vehicles? - A case study of Bavaria. European Journal of Transport and Infrastructure Research 20 (4):286-305


@Article{MuelGuerObreBier20,
  author = {Florian Mueller and Markus Guerster and Nikola Obrenovic and Michel Bierlaire},
  title = {Can regional railway become emission-free with recently announced vehicles? - A case study of Bavaria},
  journal = {European Journal of Transport and Infrastructure Research},
  year = {2020},
  volume = {20},
  number = {4},
  pages = {286-305},
  DOI = {10.18757/ejtir.2020.20.4.5439},
  note = {Accepted on Sep 01, 2020}}}

Bansal P., Krueger R., Bierlaire M., Daziano R., Rashidi T. (2020). Bayesian Estimation of Mixed Multinomial Logit Models: Advances and Simulation-Based Evaluations. Transportation Research Part B: Methodological 131 :124-142


@Article{BansKrueBierDaziRash19,
  author = {Prateek Bansal and Rico Krueger and Michel Bierlaire and Ricardo Daziano and Taha Rashidi},
  title = {Bayesian Estimation of Mixed Multinomial Logit Models: Advances and Simulation-Based Evaluations},
  journal = {Transportation Research Part B: Methodological},
  year = {2020},
  volume = {131},
  pages = {124-142},
  DOI = {10.1016/j.trb.2019.12.001},
  note = {Accepted on Dec 02, 2019}}}

Moret S., Babonneau F., Bierlaire M., Maréchal F. (2020). Overcapacity in European power systems: analysis and robust optimization approach. Applied energy 259 (113970)


@Article{MoreBaboBierMare19,
  author = {Stefano Moret and Fr\'ed\'eric Babonneau and Michel Bierlaire and Fran\c{c}ois Mar\'echal},
  title = {Overcapacity in European power systems: analysis and robust optimization approach},
  journal = {Applied energy},
  year = {2020},
  volume = {259},
  number = {113970},
  DOI = {10.1016/j.apenergy.2019.113970},
  note = {Accepted on Oct 08, 2019}}}

Markov I., Bierlaire M., Cordeau J., Maknoon Y., Varone S. (2020). Waste Collection Inventory Routing with Non-stationary Stochastic Demands. Computers & Operations Research 113 (104798)


@Article{MarkBierCordMaknVaro19,
  author = {Iliya Markov and Michel Bierlaire and Jean-Fran\c{c}ois Cordeau and Yousef Maknoon and Sacha Varone},
  title = {Waste Collection Inventory Routing with Non-stationary Stochastic Demands},
  journal = {Computers \& Operations Research},
  year = {2020},
  volume = {113},
  number = {104798},
  DOI = {10.1016/j.cor.2019.104798},
  note = {Accepted on Sep 03, 2019}}}

Moret S., Babonneau F., Bierlaire M., Maréchal F. (2020). Decision support for strategic energy planning: a complete robust optimization framework. European Journal of Operational Research 280 :539-554


@Article{MoreBaboMareBier19,
  author = {Stefano Moret and Fr\'ed\'eric Babonneau and Michel Bierlaire and Fran\c{c}ois Mar\'echal},
  title = {Decision support for strategic energy planning: a complete robust optimization framework},
  journal = {European Journal of Operational Research},
  year = {2020},
  volume = {280},
  pages = {539-554},
  DOI = {10.1016/j.ejor.2019.06.015},
  note = {Accepted on Apr 28, 2019}}}

Kazagli E., Bierlaire M., de Lapparent M. (2020). Operational route choice methodologies for practical applications. Transportation 47 :43-74

This paper focuses on the application of tractable route choice models and presents a set of methods for deriving relevant disaggregate and aggregate route choice indicators, namely link and route flows. Tractability is achieved at the disaggregate level by the recursive logit model and at the aggregate level by the mental representation item (MRI) approach. These two approaches are analyzed here, and extensions of the MRI approach are presented. The analysis elaborates on the features of each model and allows to draw insights into the use of a specific model, depending on the needs of the application and the data availability. The performance of the two models is tested on real data. The results demonstrate the validity of the MRI model that is intended for aggregate analysis.
```
@Article{KazBierLap_2017_TRANSPORTATION,
  author = {Evanthia Kazagli and Michel Bierlaire and Matthieu {de Lapparent}},
  title = {Operational route choice methodologies for practical applications},
  journal = {Transportation},
  year = {2020},
  volume = {47},
  pages = {43-74},
  DOI = {10.1007/s11116-017-9849-0},
  note = {Accepted on Dec 21, 2017}}}
```

2019

Nikolic M., Bierlaire M., de Lapparent M., Scarinci R. (2019). Multi-class speed-density relationship for pedestrian traffic. Transportation Science 53 (3):642-664


@Article{NikBieLapSca_2018_TS,
  author = {Marija Nikolic and Michel Bierlaire and Matthieu {de Lapparent} and Riccardo Scarinci},
  title = {Multi-class speed-density relationship for pedestrian traffic},
  journal = {Transportation Science},
  year = {2019},
  volume = {53},
  number = {3},
  pages = {642-664},
  DOI = {10.1287/trsc.2018.0849},
  note = {Accepted on Apr 30, 2018}}}

Hurtubia R., Martinez F., Bierlaire M. (2019). A quasi-equilibrium approach for market clearing in land use microsimulations. Environment and Planning B 46 (3):445�468


@Article{HurtBierMart17,
  author = {Ricardo Hurtubia and Francesco Martinez and Michel Bierlaire},
  title = {A quasi-equilibrium approach for market clearing in land use microsimulations},
  journal = {Environment and Planning B},
  year = {2019},
  volume = {46},
  number = {3},
  pages = {445{\textendash}468},
  DOI = {10.1177/2399808317719071},
  note = {Accepted on Jun 12, 2017}}}

Sharif Azadeh S., Bierlaire M., Maknoon Y. (2019). A Two-Stage Route Optimization Algorithm for Light Aircraft Transport Systems. Transportation Research Part C: Emerging Technologies 100 :259-273


@Article{SharBierMakn,
  author = {Shadi {Sharif Azadeh} and Michel Bierlaire and Yousef Maknoon},
  title = {A Two-Stage Route Optimization Algorithm for Light Aircraft Transport Systems},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2019},
  volume = {100},
  pages = {259-273},
  DOI = {10.1016/j.trc.2019.01.028},
  note = {Accepted on Jan 28, 2019}}}

Scarinci R., Zanarini A., Bierlaire M. (2019). Electrification of urban mobility: the case of catenary-free buses. Transport Policy 80 :39-48


@Article{ScarZanaBier19,
  author = {Riccardo Scarinci and Alessandro Zanarini and Michel Bierlaire},
  title = {Electrification of urban mobility: the case of catenary-free buses},
  journal = {Transport  Policy},
  year = {2019},
  volume = {80},
  pages = {39-48},
  DOI = {10.1016/j.tranpol.2019.05.006},
  note = {Accepted on May 04, 2019}}}

Herring J., Lurkin V., Garrow L., Clarke J., Bierlaire M. (2019). Airline customers� connection time preferences in domestic U.S. markets. Journal of Air Transport Management 79 (101688)


@Article{HerrLurkGarrClarBier19,
  author = {Jordan Herring and Virginie Lurkin and Laurie Garrow and John-Paul Clarke and Michel Bierlaire},
  title = {Airline customers{\textquoteright} connection time preferences in domestic U.S. markets},
  journal = {Journal of Air Transport Management},
  year = {2019},
  volume = {79},
  number = {101688},
  DOI = {10.1016/j.jairtraman.2019.101688},
  note = {Accepted on Jun 28, 2019}}}

2018

Robenek T., Sharif Azadeh S., Maknoon Y., de Lapparent M., Bierlaire M. (2018). Train Timetable Design Under Elastic Passenger Demand. Transportation Research Part B: Methodological 111 :19-38


@Article{RoShMaDeBi18,
  author = {Tom\'a\v{s} Robenek and Shadi {Sharif Azadeh} and Yousef Maknoon and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Train Timetable Design Under Elastic Passenger Demand},
  journal = {Transportation Research Part B: Methodological},
  year = {2018},
  volume = {111},
  pages = {19-38},
  DOI = {10.1016/j.trb.2018.03.002},
  note = {Accepted on Mar 01, 2018}}}

Markov I., Bierlaire M., Cordeau J., Maknoon Y., Varone S. (2018). A Unified Framework for Rich Routing Problems with Stochastic Demands. Transportation Research Part B: Methodological 114 :213-240


@Article{MarkBierCordMaknVaro2017,
  author = {Iliya Markov and Michel Bierlaire and Jean-Fran\c{c}ois Cordeau and Yousef Maknoon and Sacha Varone},
  title = {A Unified Framework for Rich Routing Problems with Stochastic Demands},
  journal = {Transportation Research Part B: Methodological},
  year = {2018},
  volume = {114},
  pages = {213-240},
  DOI = {10.1016/j.trb.2018.05.015},
  note = {Accepted on May 24, 2018}}}

Fernandez-Antolin A., de Lapparent M., Bierlaire M. (2018). Modeling purchases of new cars: an analysis of the 2014 French market. Theory and Decision 84 (2):277-303


@Article{FerAntDeLapBier17,
  author = {Anna Fernandez-Antolin and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Modeling purchases of new cars: an analysis of the 2014 French market},
  journal = {Theory and Decision},
  year = {2018},
  volume = {84},
  number = {2},
  pages = {277-303},
  DOI = {10.1007/s11238-017-9631-y},
  note = {Accepted on Sep 23, 2017}}}

Nikolic M., Bierlaire M. (2018). Data-driven spatio-temporal discretization for pedestrian flow characterization. Transportation Research Part C: Emerging Technologies 94 :185-202


@Article{NikBie17_DataDrivenDiscretization,
  author = {Marija Nikolic and Michel Bierlaire},
  title = {Data-driven spatio-temporal discretization for pedestrian flow characterization},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2018},
  volume = {94},
  pages = {185-202},
  DOI = {10.1016/j.trc.2017.08.026},
  note = {Accepted on Aug 30, 2017}}}

2017

Chen J., Bierlaire M. (2017). The study of the unidirectional quay crane scheduling problem: complexity and risk-aversion. European Journal of Operational Research 260 (2):613-624


@Article{ChenBier17,
  author = {{Jiang Hang} Chen and Michel Bierlaire},
  title = {The study of the unidirectional quay crane scheduling problem: complexity and risk-aversion},
  journal = {European Journal of Operational Research},
  year = {2017},
  volume = {260},
  number = {2},
  pages = {613-624},
  DOI = {10.1016/j.ejor.2017.01.007}}}

Scarinci R., Bahrami F., Ourednik A., Bierlaire M. (2017). An exploration of moving walkways as a transport system in urban centers. European Journal of Transport and Infrastructure Research 17 (2):191-206

Moving walkways (MW) have been imagined as a possible means of transport since the late 19th century, and this system has fascinated urban planners and engineers ever since. Contrary to what has been imagined, moving walkways are only used in transportation hub corridors, and not as a main transport mode in city centers. Today however, MWs are receiving increasing attention as a possible solution to congestion and pollution, as well as a catalyst for soft mobility. This paper explores the role of moving walkways as a transport system, and it presents an optimized design of a network of MWs in a city center. We review historical MWs, current installations and future possibilities, using different perspectives, from geography to urban planning to transport engineering. We discuss the way in which MWs influence how people inhabit the urban space, and we review this system in the context of history of urban planning. Then, we describe a technological development called accelerating moving walkways (AMW), i.e. MWs able to reach a higher speed than traditional ones. We develop an optimization framework to design a network of AMWs, and we apply it to a real case study. The results of the network design are a reference useful to discuss the feasibility of the system starting from an engineering perspective. We conclude that the use of MWs can facilitate the flexibility and spontaneity typical of pedestrian movements, and this system could be integrated in the mix of urban transport modes in city centers.
```
@Article{ScaBahOurBie_2017,
  author = {Riccardo Scarinci and Farzaneh Bahrami and Andr\'e Ourednik and Michel Bierlaire},
  title = {An exploration of moving walkways as a transport system in urban centers},
  journal = {European Journal of Transport and Infrastructure Research},
  year = {2017},
  volume = {17},
  number = {2},
  pages = {191-206},
  DOI = {10.18757/ejtir.2017.17.2.3190},
  note = {Accepted on Jan 11, 2017}}}
```

Umang N., Bierlaire M., Erera A. (2017). Real-time management of berth allocation with stochastic arrival and handling times. Journal of Scheduling 20 (1):67-83


@Article{UmanBierErer16,
  author = {Nitish Umang and Michel Bierlaire and Alan Erera},
  title = {Real-time management of berth allocation with stochastic arrival and handling times},
  journal = {Journal of Scheduling},
  year = {2017},
  volume = {20},
  number = {1},
  pages = {67-83},
  DOI = {10.1007/s10951-016-0480-2},
  note = {Accepted on Mar 23, 2016}}}

Hänseler F., Molyneaux N., Bierlaire M. (2017). Estimation of pedestrian origin-destination demand in train stations. Transportation Science 51 (3):981-997


@Article{HaenMolyBier16,
  author = {Flurin H\"anseler and Nicholas Molyneaux and Michel Bierlaire},
  title = {Estimation of pedestrian origin-destination demand in train stations},
  journal = {Transportation Science},
  year = {2017},
  volume = {51},
  number = {3},
  pages = {981-997},
  DOI = {10.1287/trsc.2016.0723},
  note = {Accepted on Jul 07, 2016}}}

Hänseler F., Lam W., Bierlaire M., Lederrey G., Nikolic M. (2017). A dynamic network loading model for anisotropic and congested pedestrian flows. Transportation Research Part B: Methodological 95 :149-168


@Article{HaenLamBierLedeNiko16,
  author = {Flurin H\"anseler and William Lam and Michel Bierlaire and Gael Lederrey and Marija Nikolic},
  title = {A dynamic network loading model for anisotropic and congested pedestrian flows},
  journal = {Transportation Research Part B: Methodological},
  year = {2017},
  volume = {95},
  pages = {149-168},
  DOI = {10.1016/j.trb.2016.10.017},
  note = {Accepted on Oct 31, 2016}}}

Robenek T., Sharif Azadeh S., Maknoon Y., Bierlaire M. (2017). Hybrid Cyclicity: Combining The Benefits Of Cyclic And Non-Cyclic Timetables. Transportation Research Part C: Emerging Technologies 75 :228-253


@Article{RobeSharMaknBier17,
  author = {Tom\'a\v{s} Robenek and Shadi {Sharif Azadeh} and Yousef Maknoon and Michel Bierlaire},
  title = {Hybrid Cyclicity: Combining The Benefits Of Cyclic And Non-Cyclic Timetables},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2017},
  volume = {75},
  pages = {228-253},
  DOI = {10.1016/j.trc.2016.12.015},
  note = {Accepted on Dec 19, 2016}}}

Scarinci R., Rast F., Bierlaire M. (2017). Needed reduction in mobility energy consumption to meet the goal of a 2000-watt society. Transportation Research Part A: Policy and Practice 101 ():133-148

Greenhouse gas emissions related to energy production is the main cause of climate change. Transportation accounts for 30% of the total energy consumption, and a reduction in the energy used for mobility is necessary. The 2000-watt society is an environmental concept that fixes a sustainable limit to the energy consumption in different sectors, including mobility. This paper evaluates the energy consumption in several mobility scenarios, and it assesses whether the goal suggested by the 2000-watt society is achievable. We investigate the social characteristics and travel habits of the population living in a case study area. Then, we calculate the modal shift induced by transportation policies such as car-sharing, car-pooling and car-free district. We evaluate the resulting energy consumption, and we compare it with the 2000-watt society limit. We conclude that only a set of measures combining car usage reduction, increase in walking and cycling, and reduction in the total travel distance can achieve the needed energy reduction.
```
@Article{ScaRasBie_2017,
  author = {Riccardo Scarinci and Frederic Rast and Michel Bierlaire},
  title = {Needed reduction in mobility energy consumption to meet the goal of a 2000-watt society},
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2017},
  volume = {101},
  pages = {133-148},
  DOI = {10.1016/j.tra.2017.05.010},
  note = {Accepted on May 03, 2017}}}
```

Binder S., Maknoon Y., Bierlaire M. (2017). The multi-objective railway timetable rescheduling problem. Transportation Research Part C: Emerging Technologies 78 :78-94


@Article{BindMaknBier17,
  author = {Stefan Binder and Yousef Maknoon and Michel Bierlaire},
  title = {The multi-objective railway timetable rescheduling problem},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2017},
  volume = {78},
  pages = {78-94},
  DOI = {10.1016/j.trc.2017.02.001},
  note = {Accepted on Feb 01, 2017}}}

Binder S., Maknoon Y., Bierlaire M. (2017). Exogenous priority rules for the capacitated passenger assignment problem. Transportation Research Part B: Methodological 105 :19-42


@Article{BindMaknBier17a,
  author = {Stefan Binder and Yousef Maknoon and Michel Bierlaire},
  title = {Exogenous priority rules for the capacitated passenger assignment problem},
  journal = {Transportation Research Part B: Methodological},
  year = {2017},
  volume = {105},
  pages = {19-42},
  DOI = {10.1016/j.trb.2017.08.022},
  note = {Accepted on Aug 17, 2017}}}

Varotto S., Glerum A., Stathopoulos A., Bierlaire M., Longo G. (2017). Mitigating the impact of errors in travel time reporting on mode choice modelling. Journal of Transport Geography 62 :236-246


@Article{VaroGlerStatBierLong17,
  author = {Silvia Varotto and Aur\'elie Glerum and Amanda Stathopoulos and Michel Bierlaire and Giovanni Longo},
  title = {Mitigating the impact of errors in travel time reporting on mode choice modelling},
  journal = {Journal of Transport Geography},
  year = {2017},
  volume = {62},
  pages = {236-246},
  DOI = {10.1016/j.jtrangeo.2017.05.016},
  note = {Accepted on May 31, 2017}}}

Nikolic M., Bierlaire M. (2017). Data-driven spatio-temporal discretization for pedestrian flow characterization. Transportation Research Procedia 23 :188�207

We propose a novel approach to pedestrian flow characterization. The definitions of density, flow and velocity existing in the literature are extended through a data-driven spatio-temporal discretization framework. The framework is based on three-dimensional Voronoi diagrams. Synthetic data is used to empirically investigate the performance of the approach and to illustrate its advantages. Our approach outperforms the considered approaches from the literature in terms of the robustness with respect to the simulation noise and with respect to the sampling frequency. Additionally, the proposed approach is by design (i) independent from an arbitrarily chosen discretization; (ii) appropriate for the multidirectional composition of pedestrian traffic; (iii) able to reflect the heterogeneity of the pedestrian population; and (iv) applicable to pedestrian trajectories described either analytically or as a sample of points.
```
@Article{NikBier_ISTTT22,
  author = {Marija Nikolic and Michel Bierlaire},
  title = {Data-driven spatio-temporal discretization for pedestrian flow characterization},
  journal = {Transportation Research Procedia},
  year = {2017},
  volume = {23},
  pages = {188{\textendash}207},
  DOI = {10.1016/j.trpro.2017.05.012},
  note = {Accepted on Feb 16, 2017}}}
```

Moret S., Codina Girones V., Bierlaire M., Maréchal F. (2017). Characterization of input uncertainties in strategic energy planning models. Applied energy 202 :597-617


@Article{MoreCodiBierMare17,
  author = {Stefano Moret and Victor {Codina Girones} and Michel Bierlaire and Fran\c{c}ois Mar\'echal},
  title = {Characterization of input uncertainties in strategic energy planning models},
  journal = {Applied energy},
  year = {2017},
  volume = {202},
  pages = {597-617},
  DOI = {10.1016/j.apenergy.2017.05.106},
  note = {Accepted on May 13, 2017}}}

Scarinci R., Markov I., Bierlaire M. (2017). Network design of a transport system based on accelerating moving walkways. Transportation Research Part C: Emerging Technologies 80 :310�328

Pollution, congestion and urbanistic considerations are leading to a change in the use of private vehicles in dense city centers. More frequently, the last-mile is covered with systems such as public transport, car sharing and bike sharing as well as an increase in walking and cycling. Following this trend, we assume a hypothetical scenario where the use of private cars is strongly limited in dense urban areas, and innovative transport modes must be used. This work investigates a futuristic system based on a network of accelerating moving walkways (AMW) to facilitate the movement of pedestrians in city centers where cars have been banned. Unlike constant speed moving walkways, AMWs can reach speeds of up to 15km/h thanks to an acceleration section. This paper presents a rigorous description of the system characteristics from a transportation point of view, develops a heuristic algorithm for the network design problem, and tests it on a real case study. Given a network of urban roads and an origin-destination demand, the optimization algorithm, which combines traffic assignment and supply modification, explores the trade-off curve between the total travel time and capital cost of the infrastructure. The results give practical insight on the possible dimensioning of the system, show the optimal network designs, and how these vary with a reduction of the available budget. This paper investigates for the first time the use of AMWs at a network scale, and provides results useful for analyzing the system feasibility. The results on travel time, investment budget and payback period indicates that AMWs could be an effective mode of transport in cities.
```
@Article{ScaMarBie_2017,
  author = {Riccardo Scarinci and Iliya Markov and Michel Bierlaire},
  title = {Network design of a transport system based on accelerating moving walkways},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2017},
  volume = {80},
  pages = {310{\textendash}328},
  DOI = {10.1016/j.trc.2017.04.016},
  note = {Accepted on Apr 19, 2017}}}
```

2016

Hänseler F., Bierlaire M., Scarinci R. (2016). Assessing the usage and level-of-service of pedestrian facilities in train stations: A Swiss case study. Transportation Research Part A: Policy and Practice 89 :106-123


@Article{HaenBierScar16,
  author = {Flurin H\"anseler and Michel Bierlaire and Riccardo Scarinci},
  title = {Assessing the usage and level-of-service of pedestrian facilities in train stations: A Swiss case study},
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2016},
  volume = {89},
  pages = {106-123},
  DOI = {10.1016/j.tra.2016.05.010},
  note = {Accepted on May 16, 2016}}}

Danalet A., Tinguely L., de Lapparent M., Bierlaire M. (2016). Location choice with longitudinal WiFi data. Journal of Choice Modelling 18 :1-17

Location-aware data collection technologies provide new insights about location choices. Only a few dynamic models of location choice exist in scientific literature. To our knowledge, none of them correct for serial correlation. In this paper, we model choice of catering locations on a campus using WiFi traces. We use the [Wooldridge, J. M. (2005). Simple solutions to the initial conditions problem in dynamic, nonlinear panel data models with unobserved heterogeneity, Journal of Applied Econometrics 20(1): 39-54.] correction method that deals with the initial values problem and related endogeneity bias in estimation. Cross-validation, price elasticity and simulation of a scenario predicting the opening of a new catering location are presented. Predicted market shares of the new catering location correspond to point-of-sale data of the first week of opening.
```
@Article{DaTideLaBi15_JCM,
  author = {Antonin Danalet and Lo{\"\i}c Tinguely and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Location choice with longitudinal WiFi data},
  journal = {Journal of Choice Modelling},
  year = {2016},
  volume = {18},
  pages = {1-17},
  DOI = {10.1016/j.jocm.2016.04.003},
  note = {Accepted on Apr 12, 2016}}}
```

Fernandez-Antolin A., Guevara-Cue A., de Lapparent M., Bierlaire M. (2016). Correcting for endogeneity due to omitted attitudes: Empirical assessment of a modified MIS method using RP mode choice data. Journal of Choice Modelling 20 :1-15


@Article{FernGuevDeLaBier16,
  author = {Anna Fernandez-Antolin and Angelo Guevara-Cue and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Correcting for endogeneity due to omitted attitudes: Empirical assessment of a modified MIS method using RP mode choice data},
  journal = {Journal of Choice Modelling},
  year = {2016},
  volume = {20},
  pages = {1-15},
  DOI = {10.1016/j.jocm.2016.09.001},
  note = {Accepted on Sep 01, 2016}}}

Markov I., Varone S., Bierlaire M. (2016). Integrating a heterogeneous fixed fleet and a flexible assignment of destination depots in the waste collection VRP with intermediate facilities. Transportation Research Part B: Methodological 84 :256-273


@Article{MarkVaroBier16,
  author = {Iliya Markov and Sacha Varone and Michel Bierlaire},
  title = {Integrating a heterogeneous fixed fleet and a flexible assignment of destination depots in the waste collection VRP with intermediate facilities},
  journal = {Transportation Research Part B: Methodological},
  year = {2016},
  volume = {84},
  pages = {256-273},
  DOI = {10.1016/j.trb.2015.12.004}}}

Kazagli E., Bierlaire M., Flötteröd G. (2016). Revisiting the Route Choice Problem: A Modeling Framework Based on Mental Representations. Journal of Choice Modelling 19 :1-23


@Article{KazBierFlo_JoCM_2016,
  author = {Evanthia Kazagli and Michel Bierlaire and Gunnar Fl\"otter\"od},
  title = {Revisiting the Route Choice Problem: A Modeling Framework Based on Mental Representations},
  journal = {Journal of Choice Modelling},
  year = {2016},
  volume = {19},
  pages = {1-23},
  DOI = {10.1016/j.jocm.2016.06.001},
  note = {Accepted on Jun 07, 2016}}}

Moret S., Bierlaire M., Maréchal F. (2016). Robust optimization for strategic energy planning. Informatica 27 (3):625-648

Long-term planning for energy systems is often based on deterministic economic optimization and forecasts of fuel prices.When fuel price evolution is underestimated, the consequence is a low penetration of renewables and more efficient technologies in favour of fossil alternatives. This work aims at overcoming this issue by assessing the impact of uncertainty on energy planning decisions. A classification of uncertainty in energy systems decision-making is performed. Robust optimization is then applied to a Mixed-Integer Linear Programming problem, representing the typical trade-offs in energy planning. It is shown that in the uncertain domain investing in more efficient and cleaner technologies can be economically optimal.
```
@Article{MoreBierMare15,
  author = {Stefano Moret and Michel Bierlaire and Fran\c{c}ois Mar\'echal},
  title = {Robust optimization for strategic energy planning},
  journal = {Informatica},
  year = {2016},
  volume = {27},
  number = {3},
  pages = {625-648},
  DOI = {10.15388/Informatica.2016.103},
  note = {Accepted on Nov 25, 2015}}}
```

Robenek T., Maknoon Y., Sharif Azadeh S., Chen J., Bierlaire M. (2016). Passenger Centric Train Timetabling Problem. Transportation Research Part B: Methodological 89 :107-126


@Article{RobeMakAzaChenBier16,
  author = {Tom\'a\v{s} Robenek and Yousef Maknoon and Shadi {Sharif Azadeh} and {Jiang Hang} Chen and Michel Bierlaire},
  title = {Passenger Centric Train Timetabling Problem},
  journal = {Transportation Research Part B: Methodological},
  year = {2016},
  volume = {89},
  pages = {107-126},
  DOI = {10.1016/j.trb.2016.04.003},
  note = {Accepted on Apr 01, 2016}}}

Nikolic M., Bierlaire M., Farooq B., de Lapparent M. (2016). Probabilistic speed-density relationship for pedestrian traffic. Transportation Research Part B: Methodological 89 :58-81


@Article{NikBieFarLap_ProbabilisticSpeedDensity,
  author = {Marija Nikolic and Michel Bierlaire and Bilal Farooq and Matthieu {de Lapparent}},
  title = {Probabilistic speed-density relationship for pedestrian traffic},
  journal = {Transportation Research Part B: Methodological},
  year = {2016},
  volume = {89},
  pages = {58-81},
  DOI = {10.1016/j.trb.2016.04.002},
  note = {Accepted on Apr 02, 2016}}}

2015

Piu F., Kumar P., Bierlaire M., Speranza G. (2015). Introducing a preliminary Consists Selection in the Locomotive Assignment Problem. Transportation Research Part E: Logistics and Transportation Review 82 :217-237


@Article{PiuKumaBierSper15,
  author = {Francesco Piu and Prem Kumar and Michel Bierlaire and Grazia Speranza},
  title = {Introducing a preliminary Consists Selection in the Locomotive Assignment Problem},
  journal = {Transportation Research Part E: Logistics and Transportation Review},
  year = {2015},
  volume = {82},
  pages = {217-237},
  DOI = {10.1016/j.tre.2015.07.003},
  note = {Accepted on Jul 06, 2015}}}

Bierlaire M. (2015). Simulation and optimization: a short review. Transportation Research Part C: Emerging Technologies 55 :4-13


@Article{Bier15,
  author = {Michel Bierlaire},
  title = {Simulation and optimization: a short review},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2015},
  volume = {55},
  pages = {4-13},
  DOI = {10.1016/j.trc.2015.01.004},
  note = {Accepted on Jan 06, 2015}}}

Chen J., Bierlaire M. (2015). Probabilistic multimodal map-matching with rich smartphone data. Journal of Intelligent Transportation Systems 19 (2):134-148


@Article{ChenBier13,
  author = {Jingmin Chen and Michel Bierlaire},
  title = {Probabilistic multimodal map-matching with rich smartphone data},
  journal = {Journal of Intelligent Transportation Systems},
  year = {2015},
  volume = {19},
  number = {2},
  pages = {134-148},
  DOI = {10.1080/15472450.2013.764796},
  note = {Accepted on Oct 22, 2012}}}

Kumar P., Bierlaire M. (2015). Optimizing Fueling Decisions for Locomotives in Railroad Networks. Transportation Science 49 (1):149-159


@Article{KumaBier13,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Optimizing Fueling Decisions for Locomotives in Railroad Networks},
  journal = {Transportation Science},
  year = {2015},
  volume = {49},
  number = {1},
  pages = {149-159},
  DOI = {10.1287/trsc.2013.0479},
  note = {Accepted on Apr 01, 2013}}}

Lai X., Bierlaire M. (2015). Specification of the cross-nested logit model with sampling of alternatives for route choice models. Transportation Research Part B: Methodological 80 :220-234

We present an operational estimation procedure for the estimation of route choice multivariate extreme value (MEV) models based on sampling of alternatives. The procedure builds on the state-of-the-art literature, and in particular on recent methodological developments proposed by Flötteröd and Bierlaire (2013) and Guevara and Ben-Akiva (2013b). Case studies on both synthetic data and a real network demonstrate that the new method is valid and practical.
```
@Article{LaiBier15,
  author = {Xinjun Lai and Michel Bierlaire},
  title = {Specification of the cross-nested logit model with sampling of alternatives for route choice models},
  journal = {Transportation Research Part B: Methodological},
  year = {2015},
  volume = {80},
  pages = {220-234},
  DOI = {10.1016/j.trb.2015.07.005},
  note = {Accepted on Jul 04, 2015}}}
```

2014

Robenek T., Umang N., Bierlaire M., Ropke S. (2014). A Branch-and-Price Algorithm to Solve the Integrated Berth Allocation and Yard Assignment Problem in Bulk Ports. European Journal of Operational Research 235 (2):399-411

In this research, two crucial optimization problems of berth allocation and yard assignment in the context of bulk ports are studied. We discuss how these problems are interrelated and can be combined and solved as a single large scale optimization problem. More importantly we highlight the differences in operations between bulk ports and container terminals which high- lights the need to devise specific solutions for bulk ports. The objective is to minimize the total service time of vessels berthing at the port. We propose an exact solution algorithm based on a branch and price framework to solve the integrated problem. In the proposed model, the mas- ter problem is formulated as a set-partitioning problem, and subproblems to identify columns with negative reduced costs are solved using mixed integer programming. To obtain sub-optimal solutions quickly, a metaheuristic approach based on critical-shaking neighborhood search is pre- sented. The proposed algorithms are tested and validated through numerical experiments based on instances inspired from real bulk port data. The results indicate that the algorithms can be successfully used to solve instances containing up to 40 vessels within reasonable computational time.
```
@Article{RobeUmanBierRopk13,
  author = {Tom\'a\v{s} Robenek and Nitish Umang and Michel Bierlaire and Stefan Ropke},
  title = {A Branch-and-Price Algorithm to Solve the Integrated Berth Allocation and Yard Assignment Problem in Bulk Ports},
  journal = {European Journal of Operational Research},
  year = {2014},
  volume = {235},
  number = {2},
  pages = {399-411},
  DOI = {10.1016/j.ejor.2013.08.015},
  note = {Accepted on Aug 12, 2013}}}
```

Atasoy B., Salani M., Bierlaire M. (2014). An integrated airline scheduling, fleeting and pricing model for a monopolized market. Computer-Aided Civil and Infrastructure Engineering 29 (2):76-90


@Article{AtasSalaBier13,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {An integrated airline scheduling, fleeting and pricing model for a monopolized market},
  journal = {Computer-Aided Civil and Infrastructure Engineering},
  year = {2014},
  volume = {29},
  number = {2},
  pages = {76-90},
  DOI = {10.1111/mice.12032},
  note = {Accepted on Apr 13, 2013}}}

Kumar P., Bierlaire M. (2014). Multi-Objective Airport Gate Assignment Problem in Planning and Operations. Journal of Advanced Transportation 48 (7):902-926


@Article{ViswBier13,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Multi-Objective Airport Gate Assignment Problem in Planning and Operations},
  journal = {Journal of Advanced Transportation},
  year = {2014},
  volume = {48},
  number = {7},
  pages = {902-926},
  DOI = {10.1002/atr.1235},
  note = {Accepted on May 01, 2013}}}

Glerum A., Stankovikj L., Thémans M., Bierlaire M. (2014). Forecasting the demand for electric vehicles: accounting for attitudes and perceptions. Transportation Science 48 (4):483-499

In the context of the arrival of electric vehicles on the car market, new mathematical models are needed to understand and predict the impact on the market shares. This research provides a comprehensive methodology to forecast the demand of a technology which is not widespread yet, such as electric cars. It aims at providing contributions regarding three issues related to the prediction of the demand for electric vehicles: survey design, model estimation and forecasting. We develop a stated preferences (SP) survey with personalized choice situations involving standard gasoline/diesel cars and electric cars. We specify a hybrid choice model accounting for attitudes towards leasing contracts or practical aspects of a car in the decision-making process. A forecasting analysis based on the collected SP data and market data is performed to evaluate the future demand for electric cars.
```
@Article{GleStaTheBie_2013,
  author = {Aur\'elie Glerum and Lidija Stankovikj and Micha\"el Th\'emans and Michel Bierlaire},
  title = {Forecasting the demand for electric vehicles: accounting for attitudes and perceptions},
  journal = {Transportation Science},
  year = {2014},
  volume = {48},
  number = {4},
  pages = {483-499},
  DOI = {10.1287/trsc.2013.0487},
  note = {Accepted on May 29, 2013}}}
```
Hurtubia R., Bierlaire M. (2014). Estimation of bid functions for location choice and price modeling with a latent variable approach. Networks and Spatial Economics 14 (1):47-65

A new approach for the estimation of bid-rent functions for residential location choice is proposed. The method is based on the bid-auction approach and considers that the expected maximum bid of the auction is a latent variable that can be related to observed price indicators through a measurement equation. The method has the advantage of allowing for the estimation of the parameters of the bid function that explain the heterogeneous preferences of households for location while simultaneously adjusting the expected maximum bid to reproduce realistic values. The model is applied and validated for a case study on the city of Brussels. Results show that the proposed model outperforms other methods for bid-rent estimation, both in terms of real estate prices and spatial distribution of agents, especially when detailed data describing the real estate goods and their prices is not available.
```
@Article{HurtBier13,
  author = {Ricardo Hurtubia and Michel Bierlaire},
  title = {Estimation of bid functions for location choice and price modeling with a latent variable approach},
  journal = {Networks and Spatial Economics},
  year = {2014},
  volume = {14},
  number = {1},
  pages = {47-65},
  DOI = {10.1007/s11067-013-9200-z},
  note = {Accepted on Jul 16, 2013}}}
```

Efthymiou D., Farooq B., Bierlaire M., Antoniou C. (2014). Multidimensional Indicator Analysis for Transport Policy Evaluation. Transportation Research Record 2430


@Article{EfthFarrBierAnto15,
  author = {Dimitrios Efthymiou and Bilal Farooq and Michel Bierlaire and Constantinos Antoniou},
  title = {Multidimensional Indicator Analysis for Transport Policy Evaluation},
  journal = {Transportation Research Record},
  year = {2014},
  volume = {2430},
  DOI = {10.3141/2430-09},
  note = {Accepted on Feb 14, 2014}}}

Binder S., Macfarlane G., Garrow L., Bierlaire M. (2014). Associations among Household Characteristics, Vehicle Characteristics and Emissions Failures: An Application of Targeted Marketing Data. Transportation Research Part A: Policy and Practice 59 :122-133


@Article{BindMacfGarrBier13,
  author = {Stefan Binder and Gregory Macfarlane and Laurie Garrow and Michel Bierlaire},
  title = {Associations among Household Characteristics, Vehicle Characteristics and Emissions Failures: An Application of Targeted Marketing Data},
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2014},
  volume = {59},
  pages = {122-133},
  DOI = {10.1016/j.tra.2013.11.005},
  note = {Accepted on Nov 04, 2013}}}

Alahi A., Bierlaire M., Vandergheynst P. (2014). Robust Real-time Pedestrians Detection in Urban Environments with a Network of Low Resolution Cameras. Transportation Research Part C: Emerging Technologies 39 :113-128

Detecting that pedestrians are present in front of a vehicle is highly desirable to avoid dangerous traffic situations. A novel vision-based system is presented to automatically detect far-away pedestrians with low-resolution cameras mounted in vehicles given the contributions of fixed cameras present in the scene. Fixed cameras detect pedestrians by solving an inverse problem built upon a multi-class dictionary of atoms approximating the foreground silhouettes. A sparse-sensing strategy is proposed to extract the foreground silhouettes and classify them in real-time. Mobile cameras detect pedestrians given only their appearance in the fixed cameras. A cascade of compact binary strings is presented to model the appearance of pedestrians and match them across cameras. The proposed system addresses the practical requirements of transportation systems: it runs in real-time with low memory loads and bandwidth consumption. We evaluate the performance of our system when extracted features are severely degraded and the sensing devices are of low quality. Experimental results demonstrate the feasibility of our collaborative vision-based system.
```
@Article{AlahBierVand13,
  author = {Alexandre Alahi and Michel Bierlaire and Pierre Vandergheynst},
  title = {Robust Real-time Pedestrians Detection in Urban Environments with a Network of Low Resolution Cameras},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2014},
  volume = {39},
  pages = {113-128},
  DOI = {10.1016/j.trc.2013.11.019},
  note = {Accepted on Nov 15, 2013}}}
```
Glerum A., Atasoy B., Bierlaire M. (2014). Using semi-open questions to integrate perceptions in choice models. Journal of Choice Modelling 10 :11-33

This research investigates the measurement of perceptions by means of adjectives freely reported by respondents in semi-open questions. It involved the use of semi-open responses of 1'763 Swiss individuals to develop indicators for a latent variable representing the perception of comfort of public transportation. The indicators are then incorporated into a discrete choice model of revealed mode choices. Perceptions are assumed to impact choice significantly and this research aims at capturing their complexity using adjectives and integrating them into the hybrid choice modeling framework. We exploit a quantification of the adjectives performed by external evaluators. Given the subjectivity that is involved, we analyze the sensitivity of the results across evaluators who rated the adjectives. We observe that the aggregate indicators of demand, such as market shares, elasticities and values of time, are rather robust across evaluators. This is not the case for the disaggregate indicators that may vary substantially across evaluators.
```
@Article{GleAtaBie_2013,
  author = {Aur\'elie Glerum and Bilge Atasoy and Michel Bierlaire},
  title = {Using semi-open questions to integrate perceptions in choice models},
  journal = {Journal of Choice Modelling},
  year = {2014},
  volume = {10},
  pages = {11-33},
  DOI = {10.1016/j.jocm.2013.12.001},
  note = {Accepted on Dec 13, 2013}}}
```

Anderson P., Farooq B., Efthymiou D., Bierlaire M. (2014). Association Generation in Synthetic Population for Transportation Applications: Graph-Theoretic Solution . Transportation Research Record 2429 :38-50


@Article{AndeFaroEfthBier15,
  author = {Paul Anderson and Bilal Farooq and Dimitrios Efthymiou and Michel Bierlaire},
  title = {Association Generation in Synthetic Population for Transportation Applications: Graph-Theoretic Solution },
  journal = {Transportation Research Record},
  year = {2014},
  volume = {2429},
  pages = {38-50},
  DOI = {10.3141/2429-05},
  note = {Accepted on Feb 14, 2014}}}

Hurtubia R., Nguyen M., Glerum A., Bierlaire M. (2014). Integrating psychometric indicators in latent class choice models. Transportation Research Part A: Policy and Practice 64 :135-146


@Article{HuNgGlBi_2014,
  author = {Ricardo Hurtubia and {My Hang} Nguyen and Aur\'elie Glerum and Michel Bierlaire},
  title = {Integrating psychometric indicators in latent class choice models},
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2014},
  volume = {64},
  pages = {135-146},
  DOI = {10.1016/j.tra.2014.03.010},
  note = {Accepted on Mar 11, 2014}}}

Danalet A., Farooq B., Bierlaire M. (2014). A Bayesian Approach to Detect Pedestrian Destination-Sequences from WiFi Signatures. Transportation Research Part C: Emerging Technologies 44 :146 - 170

In this paper, we propose a methodology to use the communication network infrastructure, in particular WiFi traces, to detect the sequence of activity episodes visited by pedestrians. Due to the poor quality of WiFi localization, a probabilistic method is proposed that infers activity-episode locations based on WiFi traces and calculates the likelihood of observing these traces in the pedestrian network, taking into account prior knowledge. The output of the method consists of candidates of activity-episodes sequences associated with the likelihood to be the true one. The methodology is validated on traces generated by a known sequence of activities, while the performance being evaluated on a set of anonymous users. Results show that it is possible to predict the number of episodes and the activity-episodes locations and durations, by merging information about the activity locations on the map, WiFi measurements and prior information about schedules and the attractivity in pedestrian infrastructure. The ambiguity of each activity episode in the sequence is explicitly measured.
```
@Article{DanaletFarooqBierlaire_2014,
  author = {Antonin Danalet and Bilal Farooq and Michel Bierlaire},
  title = {A Bayesian Approach to Detect Pedestrian Destination-Sequences from WiFi Signatures},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2014},
  volume = {44},
  pages = {146 - 170},
  DOI = {10.1016/j.trc.2014.03.015},
  note = {Accepted on Mar 26, 2014}}}
```
Hänseler F., Bierlaire M., Farooq B., Mühlematter T. (2014). A macroscopic loading model for time-varying pedestrian flows in public walking areas. Transportation Research Part B: Methodological 69 :60 -- 80

A macroscopic loading model applicable to time-dependent and congested pedestrian flows in public walking areas is proposed. Building on the continuum theory of pedestrian flows and the cell transmission model for car traffic, an isotropic framework is developed that can describe the simultaneous and potentially conflicting propagation of multiple pedestrian groups. The model is formulated at the aggregate level and thus computationally cheap, which is advantageous for studying large-scale problems. A detailed analysis of several basic flow patterns including counter- and cross flows, as well as two generic scenarios involving a corner- and a bottleneck flow is carried out. Various behavioral patterns ranging from disciplined queueing to impatient jostling can be realistically reproduced. Following a systematic model calibration, two case studies involving a Swiss railway station and a Dutch bottleneck flow experiment are presented. A comparison with the social force model and pedestrian tracking data shows a good performance of the proposed model with respect to predictions of travel time and density.
```
@Article{Haens_Bier_Far_Muhl_2014,
  author = {Flurin H\"anseler and Michel Bierlaire and Bilal Farooq and Thomas M\"uhlematter},
  title = {A macroscopic loading model for time-varying pedestrian flows in public walking areas},
  journal = {Transportation Research Part B: Methodological},
  year = {2014},
  volume = {69},
  pages = {60 -- 80},
  DOI = {10.1016/j.trb.2014.08.003},
  note = {Accepted on Aug 08, 2014}}}
```
Nikolic M., Bierlaire M. (2014). Pedestrian-oriented Flow Characterization. Transportation Research Procedia 2 :359-366

Definitions of flow indicators are derived by adapting Edie's definitions through a stream-based approach and a data-driven spatio-temporal discretization framework. The stream-based approach accounts for the multidirectional nature of pedestrian flows. The data-driven discretization framework, based on three-dimensional Voronoi tessellations, accounts for the pedestrian heterogeneity in the case when only samples of points are available, instead of the analytical description of trajectories. The proposed approach enables the pedestrian flow characterization to be applicable to any space-time domain of interest.
```
@Article{NikoBier14,
  author = {Marija Nikolic and Michel Bierlaire},
  title = {Pedestrian-oriented Flow Characterization},
  journal = {Transportation Research Procedia},
  year = {2014},
  volume = {2},
  pages = {359-366},
  DOI = {10.1016/j.trpro.2014.09.032},
  note = {Accepted on Oct 02, 2014}}}
```

2013

Bierlaire M., Osorio C. (2013). Selected papers from the seventh Triennial Symposium on Transportation Analysis (TRISTAN VII). Transportation Research Part C: Emerging Technologies 27 :59


@Article{BierOsor13,
  author = {Michel Bierlaire and Carolina Osorio},
  title = {Selected papers from the seventh Triennial Symposium on Transportation Analysis (TRISTAN VII)},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2013},
  volume = {27},
  pages = {59}}}

Bergantino A., Bierlaire M., Catalano M., Migliore M., Amoroso S. (2013). Taste heterogeneity and latent preferences in the choice behaviour of freight transport operators. Transport Policy 30 :77-91


@Article{BergBierCataMiglAmor13,
  author = {Angela Bergantino and Michel Bierlaire and Mario Catalano and Marco Migliore and Salvatore Amoroso},
  title = {Taste heterogeneity and latent preferences in the choice behaviour of freight transport operators},
  journal = {Transport  Policy},
  year = {2013},
  volume = {30},
  pages = {77-91},
  DOI = {10.1016/j.tranpol.2013.08.002}}}

Vacca I., Salani M., Bierlaire M. (2013). An exact algorithm for the integrated planning of berth allocation and quay crane assignment. Transportation Science 47 (2):148-161


@Article{VaccSalaBier12,
  author = {Ilaria Vacca and Matteo Salani and Michel Bierlaire},
  title = {An exact algorithm for the integrated planning of berth allocation and quay crane assignment},
  journal = {Transportation Science},
  year = {2013},
  volume = {47},
  number = {2},
  pages = {148-161},
  DOI = {10.1287/trsc.1120.0428},
  note = {Accepted on Mar 17, 2012}}}

Bierlaire M., Chen J., Newman J. (2013). A Probabilistic Map Matching Method for Smartphone GPS data. Transportation Research Part C: Emerging Technologies 26 :78�98


@Article{BierChenNewm12,
  author = {Michel Bierlaire and Jingmin Chen and Jeffrey Newman},
  title = {A Probabilistic Map Matching Method for Smartphone GPS data},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2013},
  volume = {26},
  pages = {78{\textendash}98},
  DOI = {10.1016/j.trc.2012.08.001},
  note = {Accepted on Aug 03, 2012}}}

Atasoy B., Glerum A., Bierlaire M. (2013). Attitudes towards mode choice in Switzerland. disP - The Planning Review 49 (2):101-117

We integrate latent attitudes of individuals into a mode choice model through latent variable and latent class models with the help of psychometric indicators that enable us to measure these attitudes. The aim of the inclusion of attitudes is to better understand the underlying choice preferences of travelers and therefore increase the forecasting power of the choice model. We first present an integrated choice and latent variable model where we include attitudes towards public transportation and environmental issues explaining the utility of public transport. Secondly we present an integrated choice and latent class model where we identify two segments of individuals having different sensitivities to the attributes of the alternatives resulting from their individual characteristics. Calibration of these types of advanced models on our sample has demonstrated the importance of attitudinal variables in the characterization of the population heterogeneity.
```
@Article{AtaGlerBier2012_DISP,
  author = {Bilge Atasoy and Aur\'elie Glerum and Michel Bierlaire},
  title = {Attitudes towards mode choice in Switzerland},
  journal = {disP - The Planning Review},
  year = {2013},
  volume = {49},
  number = {2},
  pages = {101-117},
  DOI = {10.1080/02513625.2013.827518},
  note = {Accepted on Apr 25, 2012}}}
```

Fosgerau M., McFadden D., Bierlaire M. (2013). Choice Probability Generating Functions. Journal of Choice Modelling 8 :1-18


@Article{FosgMcFaBier13,
  author = {Mogens Fosgerau and Dan McFadden and Michel Bierlaire},
  title = {Choice Probability Generating Functions},
  journal = {Journal of Choice Modelling},
  year = {2013},
  volume = {8},
  pages = {1-18},
  DOI = {10.1016/j.jocm.2013.05.002},
  note = {Accepted on May 15, 2013}}}

Chorus C., Bierlaire M. (2013). An empirical comparison of travel choice models that capture preferences for compromise alternatives. Transportation 40 (3):549-562


@Article{ChorBier13,
  author = {Caspar Chorus and Michel Bierlaire},
  title = {An empirical comparison of travel choice models that capture preferences for compromise alternatives},
  journal = {Transportation},
  year = {2013},
  volume = {40},
  number = {3},
  pages = {549-562},
  DOI = {10.1007/s11116-012-9444-3},
  note = {Accepted on Oct 04, 2012}}}

Farooq B., Bierlaire M., Hurtubia R., Flötteröd G. (2013). Simulation based population synthesis. Transportation Research Part B: Methodological 58 :243-263


@Article{FaroBierHurtFloe13,
  author = {Bilal Farooq and Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {Simulation based population synthesis},
  journal = {Transportation Research Part B: Methodological},
  year = {2013},
  volume = {58},
  pages = {243-263},
  DOI = {10.1016/j.trb.2013.09.012},
  note = {Accepted on Sep 21, 2013}}}

Cruz J., Bierlaire M., Thiran J. (2013). Sample and Pixel Weighting Strategies for Robust Incremental Visual Tracking. IEEE Transactions on Circuits and Systems for Video Technology 23 (5):898-911


@Article{CruzBierThir13,
  author = {Javier Cruz and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Sample and Pixel Weighting Strategies for Robust Incremental Visual Tracking},
  journal = {IEEE Transactions on  Circuits and Systems for Video Technology},
  year = {2013},
  volume = {23},
  number = {5},
  pages = {898-911},
  DOI = {10.1109/TCSVT.2013.2249374 },
  note = {Accepted on Dec 25, 2012}}}

Flötteröd G., Bierlaire M. (2013). Metropolis-Hastings sampling of paths. Transportation Research Part B: Methodological 48 :53-66


@Article{FloeBier13,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Metropolis-Hastings sampling of paths},
  journal = {Transportation Research Part B: Methodological},
  year = {2013},
  volume = {48},
  pages = {53-66},
  DOI = {10.1016/j.trb.2012.11.002},
  note = {Accepted on Oct 17, 2012}}}

Atasoy B., Salani M., Bierlaire M., Leonardi C. (2013). Impact analysis of a flexible air transportation system. European Journal of Transport and Infrastructure Research 13 (2):123-146

The paper provides analytical evidence of the added-value of flexibility for air transportation systems. More specifically, the impact of a new innovative modular aircraft on the operations of an airline is deeply analyzed. The impact analysis is carried out with an integrated schedule planning model which presents a combination of appropriate optimization and behavioral modeling methodologies. The results show that the flexible system uses the transportation capacity more efficiently by carrying more passengers with less overall capacity. Moreover, it is observed that the flexible system deals better with insufficient transportation capacity. Furthermore, the scheduling decisions are robust to the estimated cost figures of the new system. For the analyzed range of costs, it is always carrying more passengers with less allocated capacity compared to a standard system.
```
@Article{AtaSalBierLeo_2013,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire and Claudio Leonardi},
  title = {Impact analysis of a flexible air transportation system},
  journal = {European Journal of Transport and Infrastructure Research},
  year = {2013},
  volume = {13},
  number = {2},
  pages = {123-146},
  note = {Accepted on Dec 17, 2012}}}
```
Börjesson M., Cherchi E., Bierlaire M. (2013). Within Individual Variation in Preferences: Equity Effects of Congestion Charges. Transportation Research Record 2382 :92-101

The purpose of this research was to explore how the values of travel time (VTT) and preferences for different modes vary within individuals compared with the variation between observed trips. With 6-week revealed preference panel data and stated preference data from a mode choice context, both collected in Switzerland, a revealed-stated preference logit mode choice model was estimated. The model was applied to simulate how VTT and change in consumer surplus vary across trips within and between individuals over the 6 weeks in response to a hypothetical congestion-charging scheme. The variation in VTT arising from income differences was found to be substantially smaller than the variation in VTT between trips. Moreover, the variability in VTT averaged over all trips within each individual was considerably smaller than the variability in VTT for all observed trips. Therefore, the assumption that variation in VTT between observed trips reflects the variation in the average VTT between individuals, which is usually made in equity analyses, will overstate the between-individual variation. The results suggest that if intraindividual variation in preferences is not taken into account, the negative equity effects of congestion charges are likely to be overestimated.
```
@Article{BorjCherBier13,
  author = {Maria B\"orjesson and Elisabetta Cherchi and Michel Bierlaire},
  title = {Within Individual Variation in Preferences: Equity Effects of Congestion Charges},
  journal = {Transportation Research Record},
  year = {2013},
  volume = {2382},
  pages = {92-101},
  DOI = {10.3141/2382-11},
  note = {Accepted on Feb 25, 2013}}}
```
Umang N., Bierlaire M., Vacca I. (2013). Exact and Heuristic Methods to Solve the Berth Allocation Problem in Bulk Ports. Transportation Research Part E: Logistics and Transportation Review 54 :14-31

In this paper, we study the dynamic hybrid berth allocation problem in bulk ports with the objective to minimize the total service times of the vessels. We propose two exact methods based on mixed integer progra mming and generalized set partitionin g, and a heuristic method based on squeaky wheel optimization, explicitly considering the cargo type on the vessel. The formulations are compared through extensive numer ical experiments based on instances inspired from real bulk port data. The results indicate that the set partitioning method and the heuristic method can be used to obtain near-optimal solutions for even larger problem size.
```
@Article{UmanBierVac13,
  author = {Nitish Umang and Michel Bierlaire and Ilaria Vacca},
  title = {Exact and Heuristic Methods to Solve the Berth Allocation Problem in Bulk Ports},
  journal = {Transportation Research Part E: Logistics and Transportation Review},
  year = {2013},
  volume = {54},
  pages = {14-31},
  DOI = {10.1016/j.tre.2013.03.003},
  note = {Accepted on Mar 16, 2013}}}
```

Osorio C., Bierlaire M. (2013). A simulation-based optimization framework for urban transportation problems. Operations Research 61 (6):1333-1345


@Article{OsorBier13,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A simulation-based optimization framework for urban transportation problems},
  journal = {Operations Research},
  year = {2013},
  volume = {61},
  number = {6},
  pages = {1333-1345},
  DOI = {10.1287/opre.2013.1226},
  note = {Accepted on Jun 29, 2013}}}

2012

Lee M., Khelifa A., Garrow L., Bierlaire M., Post D. (2012). An analysis of destination choice for opaque airline products using multidimensional binary logit models . Transportation Research Part A: Policy and Practice 46 :1641-1653


@Article{LeeKhelGarroBierPost12,
  author = {Misuk Lee and Alexandre Khelifa and Laurie Garrow and Michel Bierlaire and David Post},
  title = {An analysis of destination choice for opaque airline products using  multidimensional binary logit models },
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2012},
  volume = {46},
  pages = {1641-1653},
  DOI = {10.1016/j.tra.2012.08.009},
  note = {Accepted on Aug 14, 2012}}}

Robin T., Bierlaire M. (2012). Modeling the behavior of investors. Journal of Choice Modelling 5 (2)

We introduce a hybrid discrete choice framework to model the decisions of investors in stock markets. More specifically, we model the decision to buy or sell stocks using a binary logit model with latent classes, characterizing the perception of risk. The model considers the dynamic nature of the underlying decision process and is estimated from the data of a Swiss bank containing 25989 transactional observations from January 2005 to September 2010 for 6 different portfolios. The predictive performance of the model is tested: a cross-validation analysis is performed and the forecasting accuracy of the model is studied in details. Parameters of the model are interpretable and quantify interesting behavioral mechanisms related to investors’ decisions. The predictive capabilities of the model in a real context makes it practicable.
```
@Article{RobiBier12,
  author = {Thomas Robin and Michel Bierlaire},
  title = {Modeling the behavior of investors},
  journal = {Journal of Choice Modelling},
  year = {2012},
  volume = {5},
  number = {2},
  DOI = {10.1016/S1755-5345(13)70054-X},
  note = {Accepted on Jun 22, 2012}}}
```
Cruz J., Bogdanova I., Paquier B., Bierlaire M., Thiran J. (2012). Scale Invariant Feature Transform on the Sphere: Theory and Applications. International Journal of Computer Vision 98 (2):217-241

A SIFT algorithm in spherical coordinates for omnidirectional images is proposed. This algorithm can generate two types of local descriptors, Local Spherical Descriptors and Local Planar Descriptors. With the first ones, point matching between two omnidirectional images can be performed, and with the second ones, the same matching process can be done but between omnidirectional and planar images. Furthermore, a planar to spherical mapping is introduced and an algorithm for its estimation is given. This mapping allows to extract objects from an omnidirectional image given their SIFT descriptors in a planar image. Several experiments, confirming the promising and accurate performance of the system, are conducted.
```
@Article{CruzBogdPaquBierThir09,
  author = {Javier Cruz and Iva Bogdanova and Beno{\^\i}t Paquier and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Scale Invariant Feature Transform on the Sphere: Theory and Applications},
  journal = {International Journal of Computer Vision},
  year = {2012},
  volume = {98},
  number = {2},
  pages = {217-241},
  DOI = {10.1007/s11263-011-0505-4},
  note = {Accepted on Oct 21, 2011}}}
```

Abou-Zeid M., Witter R., Bierlaire M., Kaufmann V., Ben-Akiva M. (2012). Happiness and Travel Mode Switching: Findings from a Swiss Public Transportation Experiment. Transport Policy 19 (1):93-104


@Article{AbouWittBierKaufBenA11,
  author = {Maya Abou-Zeid and Regina Witter and Michel Bierlaire and Vincent Kaufmann and Moshe Ben-Akiva},
  title = {Happiness and Travel Mode Switching: Findings from a Swiss Public Transportation Experiment},
  journal = {Transport  Policy},
  year = {2012},
  volume = {19},
  number = {1},
  pages = {93-104},
  DOI = {10.1016/j.tranpol.2011.09.009},
  note = {Accepted on Sep 09, 2011}}}

Osorio C., Bierlaire M. (2012). A tractable analytical model for large-scale congested protein synthesis networks. European Journal of Operational Research 219 (3):588-597

This paper presents an analytical model, based on finite capacity queueing network theory, to evaluate congestion in protein synthesis networks. These networks are modeled as a set of single server bufferless queues in a tandem topology. This model proposes a detailed state space formulation, which provides a fine description of congestion and contributes to a better understanding of how the protein synthesis rate is deteriorated. The model approximates the marginal stationary distributions of each queue. It consists of a system of linear and quadratic equations that can be decoupled. The numerical performance of this method is evaluated for networks with up to 100,000 queues, considering scenarios with various levels of congestion. It is a computationally efficient and scalable method that is suitable to evaluate congestion for large-scale networks. Additionally, this paper generalizes the concept of blocking: blocking events can be triggered by an arbitrary set of queues. This generalization allows for a variety of blocking phenomena to be modeled. (C) 2011 Elsevier B.V. All rights reserved.
```
@Article{OsorBier11,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A tractable analytical model for large-scale congested protein synthesis networks},
  journal = {European Journal of Operational Research},
  year = {2012},
  volume = {219},
  number = {3},
  pages = {588-597},
  DOI = {10.1016/j.ejor.2011.10.037},
  note = {Accepted on Jun 22, 2011}}}
```

2011

Osorio C., Flötteröd G., Bierlaire M. (2011). Dynamic network loading: a differentiable model that derives link state distributions. Transportation Research Part B: Methodological 45 (9):1410-1423


@Article{OsoFloeBier2011,
  author = {Carolina Osorio and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Dynamic network loading: a differentiable model that derives link state distributions},
  journal = {Transportation Research Part B: Methodological},
  year = {2011},
  volume = {45},
  number = {9},
  pages = {1410-1423},
  DOI = {10.1016/j.trb.2011.05.014},
  note = {Accepted on Mar 07, 2011}}}

Eggenberg N., Salani M., Bierlaire M. (2011). Uncertainty Feature Optimization: an implicit paradigm for problems with noisy data. Networks 57 (3):270-284

Optimization problems with noisy data solved using stochastic programming or robust optimization approaches require the explicit characterization of an uncertainty set U that models the nature of the noise. Such approaches depend on the modeling of the uncertainty set and suffer from an erroneous estimation of the noise.
```
@Article{EggeSalaBier10,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Uncertainty Feature Optimization: an implicit paradigm for problems with noisy data},
  journal = {Networks},
  year = {2011},
  volume = {57},
  number = {3},
  pages = {270-284},
  DOI = {10.1002/net.20428},
  note = {Accepted on Jun 16, 2010}}}
```
Robin T., Bierlaire M., Cruz J. (2011). Dynamic facial expression recognition with a discrete choice model. Journal of Choice Modelling 4 (2):95-148

A generation of new models has been proposed to handle some complex human behaviors. These models account for the data ambiguity, and there- fore extend the application field of the discrete choice modeling. The facial expression recognition (FER) is highly relevant in this context. We develop a dynamic facial expression recognition (DFER) framework based on dis- crete choice models (DCM). The DFER consists in modeling the choice of a person who has to label a video sequence representing a facial expression. The originality is based on the the analysis of videos with discrete choice models as well as the explicit modeling of causal effects between the facial features and the recognition of the expression. Five models are proposed. The first assumes that only the last frame of the video triggers the choice of the expression. The second model has two components. The first captures the perception of the facial expression within each frame in the sequence, while the second determines which frame triggers the choice. The third model is an extension of the second model and assumes that the choice of the expression results from the average of perceptions within a group of frames. The fourth and fifth models integrate the panel effect inherent to the estimation data and are respectively extensing the first and second mod- els. The models are estimated using videos from the Facial Expressions and Emotions Database (FEED). Labeling data on the videos has been obtained using an internet survey available at http://transp-or2.epfl.ch/videosurvey/. The prediction capability of the models is studied in order to check their validity by cross-validation using the estimation data.
```
@Article{RobiBierCruz11,
  author = {Thomas Robin and Michel Bierlaire and Javier Cruz},
  title = {Dynamic facial expression recognition with a discrete choice model},
  journal = {Journal of Choice Modelling},
  year = {2011},
  volume = {4},
  number = {2},
  pages = {95-148},
  DOI = {10.1016/S1755-5345(13)70059-9},
  note = {Accepted on Jun 02, 2011}}}
```
Flötteröd G., Bierlaire M., Nagel K. (2011). Bayesian demand calibration for dynamic traffic simulations. Transportation Science 45 (4):541-561

We present an operational framework for the calibration of demand models for dynamic traffic simulations, where calibration refers to the estimation of a structurally predefined model's parameters from real data. Our focus is on disaggregate simulators that represent every traveler individually. We calibrate, also at an individual level, arbitrary choice dimensions within a Bayesian framework, where the analyst's prior knowledge is represented by the dynamic traffic simulator itself and the measurements are comprised of time-dependent traffic counts. The approach is equally applicable to an equilibrium-based planning model and to a telematics model of spontaneous and imperfectly informed drivers. It is based on consistent mathematical arguments, yet it is applicable in a purely simulation-based environment and, as our experimental results show, is capable of handling large scenarios.
```
@Article{FloeBierNageTS10,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire and Kai Nagel},
  title = {Bayesian demand calibration for dynamic traffic simulations},
  journal = {Transportation Science},
  year = {2011},
  volume = {45},
  number = {4},
  pages = {541-561},
  DOI = {10.1287/trsc.1100.0367},
  note = {Accepted on Dec 01, 2010}}}
```

2010

Bierlaire M., Thémans M., Zufferey N. (2010). A heuristic for nonlinear global optimization. INFORMS Journal of Computing 22 (1):59-70

We propose a new heuristic for nonlinear global optimization combining a variable neighborhood search framework with a modified trust-region algorithm as local search. The proposed method presents the capability to prematurely interrupt the local search if the iterates are converging to a local minimum that has already been visited or if they are reaching an area where no significant improvement can be expected. The neighborhoods, as well as the neighbors selection procedure, are exploiting the curvature of the objective function. Numerical tests are performed on a set of unconstrained nonlinear problems from the literature. Results illustrate that the new method significantly outperforms existing heuristics from the literature in terms of success rate, CPU time, and number of function evaluations.
```
@Article{BierThemZuff09,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {A heuristic for nonlinear global optimization},
  journal = {INFORMS Journal of Computing},
  year = {2010},
  volume = {22},
  number = {1},
  pages = {59-70},
  DOI = {10.1287/ijoc.1090.0343},
  note = {Accepted on Feb 23, 2009}}}
```
Eggenberg N., Salani M., Bierlaire M. (2010). Constraint-specific recovery networks for solving airline recovery problems. Computers & Operations Research 37 (6):1014-1026

In this paper, we consider the recovery of an airline schedule after an unforeseen event called disruption, making the planned schedule infeasible. We present a modeling framework that allows the consideration of operational constraints within a Column Generation (CG) scheme. We introduce the general concept of recovery network, generated for each individual unit of the problem, and show how unit-specific constraints are modeled using resources. We fully illustrate the concept by solving the Aircraft Recovery Problem (ARP) with maintenance planning, we give some insights into applying the model to the Passenger Recovery Problem (PRP) and we present computational results on real data. (C) 2009 Elsevier Ltd. All rights reserved.
```
@Article{EggeSalaBier09,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Constraint-specific recovery networks for solving airline recovery problems},
  journal = {Computers \& Operations Research},
  year = {2010},
  volume = {37},
  number = {6},
  pages = {1014-1026},
  DOI = {10.1016/j.cor.2009.08.006 },
  note = {Accepted on Aug 31, 2009}}}
```
Patterson Z., Bierlaire M. (2010). Development of Prototype UrbanSim Models. Environment and Planning B 37 (2):344-366

UrbanSim is an integrated transportation land-use model that has been under development since the late 1990s. It has received a significant amount of attention in the integrated modeling community. It is well known for its disaggregated approach. A number of papers describing the application of UrbanSim have appeared in the formal and gray literatures. Some of these papers report on successful applications of UrbanSim with little description of the amount of effort required to develop an operational model. Those that do report on the effort and challenges of using UrbanSim suggest that substantial data and human resources are required. One recent report quantifies the human resource requirements as an interdisciplinary team of four for three years. This reputation makes many potential users think twice before developing an UrbanSim model. We believe the best way to evaluate UrbanSim for a new region is by having a sense of how it can be used, and how much effort is required to do so. Understanding UrbanSim, however, does not require having a fully operational model. This paper is aimed at researchers and institutions that would like to evaluate UrbanSim, but are concerned about the effort required to do so. Based on two applications (Brussels in Belgium and Lausanne in Switzerland), it describes a procedure to develop a prototype UrbanSim model and how to use it to evaluate UrbanSim for application to a new region. Its objective is to motivate, describe, comment and illustrate a procedure for an efficient evaluation of the use of UrbanSim. Its main contributions are threefold. First, it develops a procedure by which a prototype UrbanSim model can be developed for evaluation purposes in a new region. Second, it provides an analysis of the effort required to do so. Finally, in so doing it advances knowledge in the field of transportation and land-use modeling by helping modelers to evaluate the use of UrbanSim for a particular study region, in a rigorous and systematic way.
```
@Article{PattBier09,
  author = {Zachary Patterson and Michel Bierlaire},
  title = {Development of Prototype UrbanSim Models},
  journal = {Environment and Planning B},
  year = {2010},
  volume = {37},
  number = {2},
  pages = {344-366},
  DOI = {10.1068/b35107},
  note = {Accepted on Jul 08, 2009}}}
```
Sorci M., Antonini G., Cruz J., Robin T., Bierlaire M., Thiran J. (2010). Modelling human perception of static facial expressions. Image and Vision Computing 28 (5):790-806

A recent internet based survey of over 35'000 samples has shown that when different human observers are asked to assign labels to static human facial expressions, different individuals categorize differently the same image. This fact results in a lack of an unique ground-truth, an assumption held by the large majority of existing models for classification. This is especially true for highly ambiguous expressions, especially in the lack of a dynamic context. In this paper we propose to address this shortcoming by the use of Discrete Choice Models (DCM) to describe the choice a human observer is faced to when assigning labels to static facial expressions. Different models of increasing complexity are specified to capture the causal effect between features of an image and its associated expression, using several combinations of different measurements. The sets of measurements we used are largely inspired by FACS but also introduce some new ideas, specific to a static framework. These models are calibrated using maximum likelihood techniques and they are compared with each other using a likelihood ratio test, in order to test for significance in the improvement resulting from adding supplemental features. Through a cross-validation procedure we assess the validity of our approach against overfitting and we provide a comparison with an alternative model based on Neural Networks for benchmark purposes.
```
@Article{SorcAntoCruzRobiBierThir09,
  author = {Matteo Sorci and Gianluca Antonini and Javier Cruz and Thomas Robin and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Modelling human perception of static facial expressions},
  journal = {Image and Vision Computing},
  year = {2010},
  volume = {28},
  number = {5},
  pages = {790-806},
  DOI = {10.1016/j.imavis.2009.10.003},
  note = {Accepted on Oct 07, 2009}}}
```

Patterson Z., Kryvobokov M., Marchal F., Bierlaire M. (2010). Disaggregate Models with Aggregate Data: Two UrbanSim Applications. Journal of Transport and Land Use 3 (2):5-37


@Article{PattKryvMarcBier10,
  author = {Zachary Patterson and Marko Kryvobokov and Fabrice Marchal and Michel Bierlaire},
  title = {Disaggregate Models with Aggregate Data: Two UrbanSim Applications},
  journal = {Journal of Transport and Land Use},
  year = {2010},
  volume = {3},
  number = {2},
  pages = {5-37},
  DOI = {10.5198/jtlu.v3i2.113},
  note = {Accepted on Jan 08, 2010}}}

Alahi A., Vandergheynst P., Bierlaire M., Kunt M. (2010). Cascade of Descriptors to Detect and Track Objects Across Any Network of Cameras. Computer Vision and Image Understanding 114 (6):624-640

Most of the multi-camera systems assume a well structured environment to detect and match objects across cameras. Cameras need to be fixed and calibrated. In this work, a novel system is presented to detect and match any objects in a network of uncalibrated fixed and mobile cameras. Objects are detected with the mobile cameras given only their observations from the fixed cameras. No training stage and data are used. Detected objects are correctly matched across cameras leading to a better understanding of the scene. A cascade of dense region descriptors is proposed to describe any object of interest. Various region descriptors are studied such as color histogram, histogram of oriented gradients, haar- wavelet responses, and covariance matrices of various features. The proposed descriptor outperforms existing approaches such as scale invariant feature transform (SIFT), or the speeded up robust features (SURF). Moreover, a sparse scan of the image plane is proposed to reduce the search space of the detection and matching process, approaching nearly real- time performance. The approach is robust to changes in illuminations, viewpoints, color distributions and image quality. Partial occlusions are also handled.
```
@Article{AlahVandBierKunt10,
  author = {Alexandre Alahi and Pierre Vandergheynst and Michel Bierlaire and Murat Kunt},
  title = {Cascade of Descriptors to Detect and Track Objects Across Any Network of Cameras},
  journal = {Computer Vision and Image Understanding},
  year = {2010},
  volume = {114},
  number = {6},
  pages = {624-640},
  DOI = {10.1016/j.cviu.2010.01.004},
  note = {Accepted on Jan 17, 2010}}}
```
Bierlaire M., Hurtubia R., Flötteröd G. (2010). An analysis of the implicit choice set generation using the Constrained Multinomial Logit model. Transportation Research Record 2175 :92-97

Discrete choice models are defined conditional to the analyst's knowledge of the actual choice set. The common practice for many years has been to assume that individual-based choice sets can be deterministically generated on the basis of the choice context and characteristics of the decision maker. This assumption is not valid or not applicable in many situations, and probabilistic choice set formation procedures must be considered. The constrained multinomial logit model (CMNL) has recently been proposed as a convenient way to deal with this issue, as it is also appropriate for models with a large choice set. In this paper, how well the implicit choice set generation of the CMNL approximates the explicit choice set generation is analyzed as described in earlier research. The results based on synthetic data show that the implicit choice set generation model may be a poor approximation of the explicit model.
```
@Article{BierHurtFlo_TRB10,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {An analysis of the implicit choice set generation using the Constrained Multinomial Logit model},
  journal = {Transportation Research Record},
  year = {2010},
  volume = {2175},
  pages = {92-97},
  DOI = {10.3141/2175-11},
  note = {Accepted on Feb 24, 2010}}}
```

2009

Divorra Escoda O., Monaci G., Figueras i Ventura R., Vandergheynst P., Bierlaire M. (2009). Geometric Video Approximation Using Weighted Matching Pursuit. IEEE Transactions on Image Processing 18 (8):1703-1716

In recent years, many works on geometric image representation have appeared in the literature. Geometric video representation has not received such an important attention so far, and only some initial works in the area have been presented. Works on geometric multi-dimensional signal representations have established a close relation with signal expansions on redundant dictionaries. For this purpose, Matching Pursuits (MP) have shown to be an interesting tool to obtain such expansions. Recently, most important limitations of MP have been underlined, and alternative algorithms like Weighted-MP have been proposed to address these. This work explores the use of Weighted-MP as a new framework for motion-adaptive geometric video approximations. We study a novel algorithm to decompose video sequences in terms of few, salient video components that jointly represent the geometric and motion content of a scene. Experimental coding results on highly geometric content show that the proposed paradigm has the potential to exploit spatio-temporal geometry adaptation, as well as that 2D Weighted-MP improves the representation compared to those based on 2D MP. Furthermore, the extracted video components represent relevant visual structures with high saliency. In an example application, such components are effectively used as video descriptors for the joint audio-video analysis of multimedia sequences. Overall results are interesting, encouraging further research on the application of Weighted-MP for geometric video representations.
```
@Article{DivoMonaFiguVandBier09,
  author = {Oscar {Divorra Escoda} and Gianluca Monaci and Rosa {Figueras i Ventura} and Pierre Vandergheynst and Michel Bierlaire},
  title = {Geometric Video Approximation Using Weighted Matching Pursuit},
  journal = {IEEE Transactions on Image Processing},
  year = {2009},
  volume = {18},
  number = {8},
  pages = {1703-1716},
  DOI = {10.1109/TIP.2009.2021315},
  note = {Accepted on Feb 28, 2009}}}
```
Frejinger E., Bierlaire M., Ben-Akiva M. (2009). Sampling of Alternatives for Route Choice Modeling. Transportation Research Part B: Methodological 43 (10):984-994

This paper presents a new paradigm for choice set generation in the context of route choice model estimation. We assume that the choice sets contain all paths connecting each origin-destination pair. Although this is behaviorally questionable, we make this assumption in order to avoid bias in the econometric model. These sets are in general impossible to generate explicitly. Therefore, we propose an importance sampling approach to generate subsets of paths suitable for model estimation. Using only a subset of alternatives requires the path utilities to be corrected according to the sampling protocol in order to obtain unbiased parameter estimates. We derive such a sampling correction for the proposed algorithm.
```
@Article{FrejBierBenA09,
  author = {Emma Frejinger and Michel Bierlaire and Moshe Ben-Akiva},
  title = {Sampling of Alternatives for Route Choice Modeling},
  journal = {Transportation Research Part B: Methodological},
  year = {2009},
  volume = {43},
  number = {10},
  pages = {984-994},
  DOI = {10.1016/j.trb.2009.03.001},
  note = {Accepted on Mar 03, 2009}}}
```
Fosgerau M., Bierlaire M. (2009). Discrete choice models with multiplicative error terms. Transportation Research Part B: Methodological 43 (5):494-505

The conditional indirect utility of many random utility maximization (RUM) discrete choice models is specified as a sum of an index V depending on observables and an independent random term. In general, the universe of RUM consistent models is much larger, even fixing some specification of V due to theoretical and practical considerations. In this paper, we explore an alternative RUM model where the summation of V and the error term is replaced by multiplication. This is consistent with the notion that choice makers may sometimes evaluate relative differences in V between alternatives rather than absolute differences. We develop some properties of this type of model and show that in several cases the change from an additive to a multiplicative formulation, maintaining a specification of V, may lead to a large improvement in fit, sometimes larger than that gained from introducing random coefficients in V.
```
@Article{FosgBier08,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Discrete choice models with multiplicative error terms},
  journal = {Transportation Research Part B: Methodological},
  year = {2009},
  volume = {43},
  number = {5},
  pages = {494-505},
  DOI = {10.1016/j.trb.2008.10.004},
  note = {Accepted on Oct 14, 2008}}}
```
Robin T., Antonini G., Bierlaire M., Cruz J. (2009). Specification, estimation and validation of a pedestrian walking behavior model. Transportation Research Part B: Methodological 43 (1):36-56

We propose and validate a model for pedestrian walking behavior, based on discrete choice modeling. Two main types of behavior are identified: unconstrained and constrained. By unconstrained, we refer to behavior patterns which are independent from other individuals. The constrained patterns are captured by a leader-follower model and by a collision avoidance model. The spatial correlation between the alternatives is captured by a cross nested logit model. The model is estimated by maximum likelihood estimation on a real data set of pedestrian trajectories, manually tracked from video sequences. The model is successfully validated using a bi-directional flow data set, collected in controlled experimental conditions at Delft university.
```
@Article{RobiAntoBierCruz08,
  author = {Thomas Robin and Gianluca Antonini and Michel Bierlaire and Javier Cruz},
  title = {Specification, estimation and validation of a pedestrian walking behavior model},
  journal = {Transportation Research Part B: Methodological},
  year = {2009},
  volume = {43},
  number = {1},
  pages = {36-56},
  DOI = {10.1016/j.trb.2008.06.010},
  note = {Accepted on Jun 11, 2008}}}
```
Osorio C., Bierlaire M. (2009). An analytic finite capacity queueing network model capturing the propagation of congestion and blocking. European Journal of Operational Research 196 (3):996-1007

Analytic queueing network models often assume infinite capacity queues due to the difficulty of grasping the between-queue correlation. This correlation can help to explain the propagation of congestion. We present an analytic queueing network model which preserves the finite capacity of the queues and uses structural parameters to grasp the between-queue correlation. Unlike pre-existing models it maintains the network topology and the queue capacities exogenous. Additionally, congestion is directly modeled via a novel formulation of the state space of the queues which explicitly captures the blocking phase. The model can therefore describe the sources and effects of congestion.
```
@Article{OsorBier08,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {An analytic finite capacity queueing network model capturing the propagation of congestion and blocking},
  journal = {European Journal of Operational Research},
  year = {2009},
  volume = {196},
  number = {3},
  pages = {996-1007},
  DOI = {10.1016/j.ejor.2008.04.035},
  note = {Accepted on Apr 23, 2008}}}
```
Bierlaire M., Thémans M. (2009). Dealing with singularities in nonlinear unconstrained optimization. European Journal of Operational Research 196 (1):33-42

We propose a new trust region based optimization algorithm for solving unconstrained nonlinear problems whose second derivatives matrix is singular at a local solution. We give a theoretical characterization of the singularity in this context and we propose an iterative procedure which allows to identify a singularity in the objective function during the course of the optimization algorithm, and artificially adds Curvature to the objective function. Numerical tests are performed on a set of unconstrained nonlinear problems, both singular and non-singular. Results illustrate the significant performance improvement compared to classical trust region and filter algorithms proposed in the literature. The approach is also shown to be competitive with tensor methods in terms of efficiency while reaching a higher level of robustness. (C) 2008 Elsevier B.V. All rights reserved
```
@Article{BierThem08,
  author = {Michel Bierlaire and Micha\"el Th\'emans},
  title = {Dealing with singularities in nonlinear unconstrained optimization},
  journal = {European Journal of Operational Research},
  year = {2009},
  volume = {196},
  number = {1},
  pages = {33-42},
  DOI = {10.1016/j.ejor.2008.02.036},
  note = {Accepted on Feb 24, 2008}}}
```
Oeuvray R., Bierlaire M. (2009). BOOSTERS: a derivative-free algorithm based on radial basis functions. International Journal of Modelling and Simulation 29 (1):26-36

Derivative-free optimization involves the methods used to minimize an expensive objective functionwhen its derivatives are not available. We present here a trust-region algorithmbased on Radial Basis Functions (RBFs). The main originality of our approach is the use of RBFs to build the trust-region models and our management of the interpolation points based on Newton fundamental polynomials. Moreover the complexity of ourmethod is very attractive. We have tested the algorithmagainst the best state-of-theart methods (UOBYQA, NEWUOA, DFO). The tests on the problems from the CUTEr collection show that BOOSTERS is performing very well on medium-size problems. Moreover, it is able to solve problems of dimension 200, which is considered very large in derivative-free optimization.
```
@Article{OeuvBier06-booster,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {BOOSTERS: a derivative-free algorithm based on radial basis functions},
  journal = {International Journal of Modelling and Simulation},
  year = {2009},
  volume = {29},
  number = {1},
  pages = {26-36},
  DOI = {10.2316/Journal.205.2009.1.205-4634},
  note = {Accepted on Jul 10, 2006}}}
```

Bierlaire M., Salani M. (2009). Selected papers from the Triennial symposium on transportation analysis (TRISTAN), Phuket, Thailand, June 11�15, 2007, Special Issue of Transportation Research Part C . Transportation Research Part C: Emerging Technologies 17 (2):105


@Article{BierSala09,
  author = {Michel Bierlaire and Matteo Salani},
  title = {Selected papers from the Triennial symposium on transportation  analysis (TRISTAN), Phuket, Thailand, June 11{\textendash}15, 2007, Special Issue of Transportation Research Part C },
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2009},
  volume = {17},
  number = {2},
  pages = {105},
  DOI = {10.1016/j.trc.2008.12.001 },
  note = {Accepted on Oct 28, 2008}}}

2008

Thévenaz P., Bierlaire M., Unser M. (2008). Halton Sampling for Image Registration Based on Mutual Information. Sampling Theory in Signal and Image Processing 7 (2):141-171

Mutual information is a widely used similarity measure for aligning multimodal medical images. At its core it relies on the computation of a discrete joint histogram, which itself requires image samples for its estimation. In this paper we study the influence of the sampling process. We show that quasi-random sampling based on Halton sequences outperforms methods based on regular sampling or on random sampling. Our results suggest that sampling itself—and not interpolation, as was previously believed— is the source of two major problems associated with mutual information: the grid effect, whereby grid-aligning transformations are favored, and the overlap problem, whereby the similarity measure exhibits discontinuities. Both defects tend to impede the accuracy of registration; they also result in reduced robustness because of the presence of local optima. By estimating the joint histogram by quasi-random sampling, we solve both issues at the same time.
```
@Article{ThevBierUnse06,
  author = {Philippe Th\'evenaz and Michel Bierlaire and Micha\"el Unser},
  title = {Halton Sampling for Image Registration Based on Mutual Information},
  journal = {Sampling Theory in Signal and Image Processing},
  year = {2008},
  volume = {7},
  number = {2},
  pages = {141-171},
  note = {Accepted on Mar 28, 2006}}}
```

Oeuvray R., Bierlaire M. (2008). A doped derivative-free algorithm. International Journal of Modelling and Simulation 28 (4):387-393


@Article{OeuvBier06-doped,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {A doped derivative-free algorithm},
  journal = {International Journal of Modelling and Simulation},
  year = {2008},
  volume = {28},
  number = {4},
  pages = {387-393},
  DOI = {10.2316/Journal.205.2008.4.205-4660},
  note = {Accepted on Jul 01, 2006}}}

Bierlaire M., Bolduc D., McFadden D. (2008). The estimation of Generalized Extreme Value models from choice-based samples. Transportation Research Part B: Methodological 42 (4):381-394

In the presence of choice-based sampling strategies for data collection, the property of Multinomial Logit (MNL) models, that consistent estimâtes of all parameters but the constants can be obtained from an Exogenous Sample Maximum Likelihood (ESML) estimation, does not hold in general for Generalized Extreme Value (GEV) models. We propose a consistent ESML estimator for GEV models in this context. We first identify a specific class of GEV models with the desired property that, similarly to MNL, the constants absorb the potential bias. We then propose a new and simpleWeighted Conditional Maximum Likelihood (WCML) estimator for the more general case. Contrarily to the Weighted Exogenous Sample Maximum Likelihood (WESML) estimator by Manski and Lerman (1977), the new WCML estimator does not require an external knowledge of the market shares. We illustrate the use of the estimator on synthetic and real data.
```
@Article{BierBoldMcFa07,
  author = {Michel Bierlaire and Denis Bolduc and Dan McFadden},
  title = {The estimation of Generalized Extreme Value models from choice-based samples},
  journal = {Transportation Research Part B: Methodological},
  year = {2008},
  volume = {42},
  number = {4},
  pages = {381-394},
  DOI = {10.1016/j.trb.2007.09.003},
  note = {Accepted on Sep 20, 2007}}}
```
Bierlaire M., Frejinger E. (2008). Route choice modeling with network-free data. Transportation Research Part C: Emerging Technologies 16 (2):187-198

Route choice models are difficult to design and to estimate for various reasons. In this paper we focus on issues related to data. Indeed, real data in its original format are not related to the network used by the modeler and do therefore not correspond to path definitions. Typical examples are data collected with the Global Positioning System (GPS) or respondents describing chosen itineraries to interviewers. Data manipulation is then necessary in order to obtain network compliant paths. We argue that such manipulations introduce bias and errors and should be avoided. We propose a general modeling framework that reconcile network-free data with a network based model without data manipulations. The concept that bridges the gap between the data and the model is called Domain of Data Relevance and corresponds to a physical area in the network where a given piece of data is relevant. We illustrate the framework on simple examples for two different types of data (GPS data and reported trips). Moreover, we present estimation results of Path Size Logit and Subnetwork models based on a dataset of reported trips collected in Switzerland. The network is to our knowledge the largest one used in the literature for route choice analysis based on revealed preferences data.
```
@Article{BierFrej07,
  author = {Michel Bierlaire and Emma Frejinger},
  title = {Route choice modeling with network-free data},
  journal = {Transportation Research Part C: Emerging Technologies},
  year = {2008},
  volume = {16},
  number = {2},
  pages = {187-198},
  DOI = {10.1016/j.trc.2007.07.007},
  note = {Accepted on Jul 23, 2007}}}
```
Axhausen K., Hess S., Koenig A., Abay G., Bates J., Bierlaire M. (2008). Income and distance elasticities of values of travel time savings: new Swiss results. Transport Policy 15 (3):173-185

This paper presents the findings of a study looking into the valuation of travel time savings (VTTS) in Switzerland, across modes as well as across purpose groups. The study makes several departures from the usual practice in VTTS studies, with the main one being a direct representation of the income and distance elasticity of the VTTS measures. Here, important gains in model performance and significantly different results are obtained through this approach. Additionally, the analysis shows that the estimation of robust coefficients for congested car travel time is hampered by the low share of congested time in the overall travel time, and the use of an additional rate-of-congestion coefficient, in addition to a generic car travel time coefficient, is preferable. Finally, the analysis demonstrates that the population mean of the indicators calculated is quite different from the sample means and presents methods to calculate those, along with the associated variances. These variances are of great interest as they allow the generation of confidence intervals, which can be extremely useful in cost-benefit analyses.
```
@Article{AxhaHessKoenAbayBateBier07,
  author = {Kay Axhausen and Stephane Hess and Arnd Koenig and Georg Abay and John Bates and Michel Bierlaire},
  title = {Income and distance elasticities of values of travel time savings: new Swiss results},
  journal = {Transport  Policy},
  year = {2008},
  volume = {15},
  number = {3},
  pages = {173-185},
  DOI = {10.1016/j.tranpol.2008.02.001},
  note = {Accepted on Feb 16, 2007}}}
```

2007

Hess S., Bierlaire M., Polak J. (2007). A systematic comparison of continuous and discrete mixture models. European Transport 37 :35-61


@Article{HessBierPola07,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {A systematic comparison of continuous and discrete mixture models},
  journal = {European Transport},
  year = {2007},
  volume = {37},
  pages = {35-61},
  note = {Accepted on Apr 04, 2007}}}

Bogers E., Bierlaire M., Hoogendoorn S. (2007). Modeling Learning in Route Choice. Transportation Research Record 2014 :1-8


@Article{BogeBierHoge07,
  author = {Enide Bogers and Michel Bierlaire and Serge Hoogendoorn},
  title = {Modeling Learning in Route Choice},
  journal = {Transportation Research Record},
  year = {2007},
  volume = {2014},
  pages = {1-8},
  DOI = {10.3141/2014-01},
  note = {Accepted on Mar 02, 2007}}}

Fosgerau M., Bierlaire M. (2007). A practical test for the choice of mixing distribution in discrete choice models. Transportation Research Part B: Methodological 41 (7):784-794

The choice of a specific distribution for random parameters of discrete choice models is a critical issue in transportation analysis. Indeed, various pieces of research have demonstrated that an inappropriate choice of the distribution may lead to serious bias in model forecast and in the estimated means of random parameters. In this paper, we propose a practical test, based on seminonparametric techniques. The test is analyzed both on synthetic and real data, and is shown to be simple and powerful.
```
@Article{FosgBier07,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {A practical test for the choice of mixing distribution in discrete choice models},
  journal = {Transportation Research Part B: Methodological},
  year = {2007},
  volume = {41},
  number = {7},
  pages = {784-794},
  DOI = {10.1016/j.trb.2007.01.002}}}
```
Frejinger E., Bierlaire M. (2007). Capturing correlation with subnetworks in route choice models. Transportation Research Part B: Methodological 41 (3):363-378

When using random utility models for a route choice problem, a critical issue is the significant correlation among alternatives. There are basically two types of models proposed in the literature to address it: (i) a deterministic correction of the path utilities in a Multinomial Logit model (such as the Path Size Logit or the C-Logit models) and (ii) an explicit modeling of the correlation through assumptions about the error terms, and the use of advanced discrete choice models such as the Cross-Nested Logit or the Error Component models. The first is simple, easy to handle and often used in practice. Unfortunately, it does not correctly capture the correlation structure, as we discuss in details in the paper. The second is more consistent with the modeling objectives, but very complicated to specify and estimate. The modeling framework proposed in this paper allows the analyst to control the trade-off between the simplicity of the model and the level of realism. Within this framework, the key concept capturing the correlation structure is called a subnetwork. A subnetwork is a simplification of the road network only containing easy identifiable and behaviorally relevant roads. In practice, the subnetwork can easily be defined based on the route network hierarchy. The importance and the originality of our approach lie in the possibility to capture the most important correlation without considerably increasing the model complexity. This makes it suitable for a wide spectrum of applications, namely involving realistic large-scale networks. As an illustration, we present estimation results of a factor analytic specification of a mixture of Multinomial Logit model, where the correlation among paths is captured by error components. The estimation is based on a GPS dataset collected in the Swedish city of Borlänge. The results show a significant increase in model fit and forecasting performance for the Error Component model compared to a Path Size Logit model. Moreover, the correlation parameters are significant.
```
@Article{FrejBier07,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Capturing correlation with subnetworks in route choice models},
  journal = {Transportation Research Part B: Methodological},
  year = {2007},
  volume = {41},
  number = {3},
  pages = {363-378},
  DOI = {10.1016/j.trb.2006.06.003}}}
```
Abbe E., Bierlaire M., Toledo T. (2007). Normalization and correlation of cross-nested logit models. Transportation Research Part B: Methodological 41 (7):795-808

We address two fundamental issues associated with the use of cross-nested logit models. On the one hand, we justify the adequate normalization of the model proposed by Wen and Koppelman (2001). On the other hand, we provide an analysis of the correlation structure of the CNL, based on random utility theory. We evaluate the validity of the approximation proposed by Papola (2004), both using theoretical arguments and numerical examples based on the exact formula of the correlation.
```
@Article{AbbeBierTole07,
  author = {Emmanuel Abbe and Michel Bierlaire and Tomer Toledo},
  title = {Normalization and correlation of cross-nested logit models},
  journal = {Transportation Research Part B: Methodological},
  year = {2007},
  volume = {41},
  number = {7},
  pages = {795-808},
  DOI = {10.1016/j.trb.2006.11.006}}}
```
Oeuvray R., Bierlaire M. (2007). A new derivative-free algorithm for the medical image registration problem. International Journal of Modelling and Simulation 27 (2):115-124

The medical image registration problem can be formulated as a nonlinear programming problem. To identify appropriate algorithms to solve it, it is critical to analyze the properties of the problem. In this paper, we consider the image registration problem based on maximization of mutual information when the partial volume (PV) interpolation is used to update the joint histogram. We identify pathological cases which may happen in practice, and which may lead to discontinuous instances of the objective function. We show that the objective function is not di&#64256;erentiable and that the set of non- di&#64256;erentiability is of null measure. Then, we propose a derivative- free algorithm specially designed for this application. Derivative- free optimization involves all the methods used to minimize an objective function when its derivatives are not available and when the function is expensive. We present here, a trust-region algorithm based on radial basis functions instead of the classical second-order polynomials. Actually, our surrogate of the objective function is a mixed radial and polynomial model. On the instances of the medical image registration problem, our method surpasses all the tested state-of-the-art derivative-free algorithms.
```
@Article{OeuvBier06-medical,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {A new derivative-free algorithm for the medical image registration problem},
  journal = {International Journal of Modelling and Simulation},
  year = {2007},
  volume = {27},
  number = {2},
  pages = {115-124},
  DOI = {10.2316/Journal.205.2007.2.205-4367}}}
```
Bierlaire M., Crittin F., Thémans M. (2007). A multi-iterate method to solve systems of nonlinear equations. European Journal of Operational Research 183 (1):20-41

We propose an extension of secant methods for nonlinear equations using a population of previous iterates. Contrarily to classical secant methods, where exact interpolation is used, we prefer a least squares approach to calibrate the linear model. We propose an explicit control of the numerical stability of the method. We show that our approach can lead to an update formula. In that case, we prove the local convergence of the corresponding undamped quasi-Newton method. Finally, computational comparisons with classical quasi-Newton methods highlight a significant improvement in terms of robustness and number of function evaluations. We also present numerical tests showing the robust behavior of our method in the presence of noise.
```
@Article{BierCritThem06,
  author = {Michel Bierlaire and Frank Crittin and Micha\"el Th\'emans},
  title = {A multi-iterate method to solve systems of nonlinear equations},
  journal = {European Journal of Operational Research},
  year = {2007},
  volume = {183},
  number = {1},
  pages = {20-41},
  DOI = {10.1016/j.ejor.2006.09.080}}}
```

2006

Antonini G., Bierlaire M., Weber M. (2006). Discrete choice models of pedestrian walking behavior. Transportation Research Part B: Methodological 40 (8):667-687

We propose a discrete choice framework for pedestrian dynamics, modelling short term behavior of individuals as a response to the presence of other pedestrians. We use a dynamic and individual-based spatial discretization, representing the physical space. We develop a model predicting where the next step of a walking pedestrian will be, at a given point in time. The use of the discrete choice framework is justified by its flexibility, the capacity to deal with individuals and the compatibility with agent-based simulation. The model is calibrated using data from actual pedestrian movements, manually taken from video sequences. We present two different formulations: a cross-nested logit and a mixed nested logit. In order to verify the quality of the calibrated model, we have designed and developed a pedestrians simulator.
```
@Article{AntoBierWebe06,
  author = {Gianluca Antonini and Michel Bierlaire and Mats Weber},
  title = {Discrete choice models of pedestrian walking behavior},
  journal = {Transportation Research Part B: Methodological},
  year = {2006},
  volume = {40},
  number = {8},
  pages = {667-687},
  DOI = {10.1016/j.trb.2005.09.006}}}
```
Bierlaire M., Crittin F. (2006). Solving noisy large scale fixed point problems and systems of nonlinear equations. Transportation Science 40 (1):44-63

Many complex transportation models can be formulated as fixed-point problems. Typical examples are the “equilibrium-like” models, motivated by the need to capture the interaction between the transport supply (that is, the infrastructure) and transport demand (that is, travelers’ behavior) in various ways. In this paper, we propose a new approach for solving fixed-point problems and, equivalently, systems of nonlinear equations. It is a generalization of secant methods, and uses several previous iterates to generate a linear approximation of the nonlinear function. Although it belongs to the quasi-Newton family of methods, our algorithm is matrix free, allowing it to solve large-scale systems of equations without derivative and without any particular assumption about the structure of the problem or its Jacobian. Computational experiments on standard problems show that this algorithm outperforms classical, large-scale quasi-Newton methods in terms of efficiency and robustness. Its numerical performances are similar to Newton- Krylov methods currently considered as the best algorithms to solve large-scale nonlinear systems of equations. Furthermore, our approach, using multiple previous iterates to build a linear approximation of the nonlinear function, exhibits robust behavior in the presence of noise in the equations, which makes it particularly well adapted to transportation problems. We run our algorithm on a simple origin-destination (OD) matrix estimation problem and on some instances of the consistent anticipatory route guidance (CARG) problem, to illustrate the applicability of the proposed method and to show its significant superiority to the classical method of successive averages (MSA). Regarding size, we were able to solve a CARG problem with more than 120,000 variables. We were also able to solve classical problems with up to two million variables.
```
@Article{BierCrit06,
  author = {Michel Bierlaire and Frank Crittin},
  title = {Solving noisy large scale fixed point problems and systems of nonlinear equations},
  journal = {Transportation Science},
  year = {2006},
  volume = {40},
  number = {1},
  pages = {44-63},
  DOI = {10.1287/trsc.1050.0119}}}
```

Osorio C., Weibel C., Perez P., Bierlaire M., Garnerin P. (2006). Patient flow simulation as a tool for estimating policy impact. Swiss Medical Informatics 58 :33-36


@Article{OsorWeibPereBierGarn06,
  author = {Carolina Osorio and Christophe Weibel and Pao Perez and Michel Bierlaire and Philippe Garnerin},
  title = {Patient flow simulation as a tool for estimating policy impact},
  journal = {Swiss Medical Informatics},
  year = {2006},
  volume = {58},
  pages = {33-36}}}

Antonini G., Venegas S., Bierlaire M., Thiran J. (2006). Behavioral priors for detection and tracking of pedestrians in video sequences. International Journal of Computer Vision 69 (2):159-180

In this paper we address the problem of detection and tracking of pedestrians in complex scenarios. The inclusion of prior knowledge is more and more crucial in scene analysis to guarantee flexibility and robustness, necessary to have reliability in complex scenes. We aim to combine image processing methods with behavioral models of pedestrian dynamics, calibrated on real data. We introduce Discrete Choice Models (DCM) for pedestrian behavior and we discuss their integration in a detection and tracking context. The obtained results show how it is possible to combine both methodologies to improve the performances of such systems in complex sequences.
```
@Article{AntoVeneBierThir06,
  author = {Gianluca Antonini and Santiago Venegas and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Behavioral priors for detection and tracking of pedestrians in video sequences},
  journal = {International Journal of Computer Vision},
  year = {2006},
  volume = {69},
  number = {2},
  pages = {159-180},
  DOI = {10.1007/s11263-005-4797-0}}}
```
Daly A., Bierlaire M. (2006). A General and Operational Representation of Generalised Extreme Value Models. Transportation Research Part B: Methodological 40 (4):285-305

Generalised extreme value models provide an interesting theoretical framework to develop closed-form random utility models. Unfortunately, few instances of this family are to be found as operational models in practice. The form of the model, based on a generating function G which must satisfy specific properties, is rather complicated. Fundamentally, it is not an easy task to translate an intuitive perception of the correlation structure by the modeller into a concrete G function. And even if the modeller succeeds in proposing a new G function, the task of proving that it indeed satisfies the properties is cumbersome. In modelling transportation demand, researchers face the problem that many of the choices they wish to model interact in complex ways. One approach to this problem is to use mixed logit models, exploiting the power of simulation-based estimation, to incorporate the interactions required. An alternative approach, however, which is followed in this paper, is to exploit further the GEV model family originally proposed by McFadden [McFadden, D., 1978. Modelling the choice of residential location. In: Karlquist, A. et al. (Eds.), Spatial Interaction Theory and Residential Location. North-Holland, Amsterdam, pp. 75–96]. The main objectives of this paper are (i) to provide a general theoretical foundation, so that the development of new GEV models will be easier in the future, and (ii) to propose an easy way of generating new GEV models without a need for complicated proofs. Our technique requires only a network structure capturing the underlying correlation of the choice situation under consideration. If the network complies with some simple conditions, we show how to build an associated model. We prove that it is indeed a GEV model and, therefore, complies with random utility theory. The multinomial logit, the nested logit and the cross-nested logit models are specific instances of our class of models. So are the recent GenL model, combining choice set generation and choice model and some specialised compound models used in recent transportation work. Probability, expected maximum utility and elasticity formulae for the class of models are provided.
```
@Article{DalyBier06,
  author = {Andrew Daly and Michel Bierlaire},
  title = {A General and Operational Representation of Generalised Extreme Value Models},
  journal = {Transportation Research Part B: Methodological},
  year = {2006},
  volume = {40},
  number = {4},
  pages = {285-305},
  DOI = {10.1016/j.trb.2005.03.003}}}
```

Bierlaire M., Thémans M., Axhausen K. (2006). Analysis of driver's response to real-time information in Switzerland. European Transport 34 :21-41


@Article{BierThemAxha06,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Kay Axhausen},
  title = {Analysis of driver's response to real-time information in Switzerland},
  journal = {European Transport},
  year = {2006},
  volume = {34},
  pages = {21-41}}}

Bierlaire M. (2006). A theoretical analysis of the cross-nested logit model. Annals of Operations Research 144 (1):287-300

The emergence of Intelligent Transportation Systems and the associated technologies has increased the need for complex models and algorithms. Namely, real-time information systems, directly influencing transportation demand, must be supported by detailed behavioral models capturing travel and driving decisions. Discrete choice models methodology provide an appropriate framework to capture such behavior. Recently, the Cross-Nested Logit (CNL) model has received quite a bit of attention in the literature to capture decisions such as mode choice, departure time choice and route choice. %The CNL model is an extension of the Nested Logit model, providing %more flexibility at the cost of some complexity in the model formulation. In this paper, we develop on the general formulation of the Cross Nested Logit model proposed by Ben-Akiva and Bierlaire (1999) and based on the Generalized Extreme Value (GEV) model. We show that it is equivalent to the formulations byby Papola (2004) and Wen and Koppelman (2001). We also show that the formulations by Small(1987) and Vovsha(1997) are special cases of this formulation. We formally prove that the Cross-Nested Logit model is indeed a member of the GEV models family. In doing so, we clearly distinguish between conditions that are necessary to prove consistency with the GEV theory, from normalization conditions. Finally, we propose to estimate the model with non-linear programming algorithms, instead of heuristics proposed in the literature. In order to make it operational, we provide the first derivatives of the log-likelihood function, which are necessary to such optimization procedures.
```
@Article{Bier06,
  author = {Michel Bierlaire},
  title = { A theoretical analysis of the cross-nested logit model},
  journal = {Annals of Operations Research},
  year = {2006},
  volume = {144},
  number = {1},
  pages = {287-300},
  DOI = {10.1007/s10479-006-0015-x}}}
```

2005

Hess S., Bierlaire M., Polak J. (2005). Estimation of value of travel-time savings using Mixed Logit models. Transportation Research Part A: Policy and Practice 39 (3):221-236

In this paper, we discuss some of the issues that arise with the computation of the implied value of travel-time savings in the case of discrete choice models allowing for random taste heterogeneity. We specifically look at the case of models producing a non-zero probability of positive travel-time coefficients, and discuss the consistency of such estimates with theories of rational economic behaviour. We then describe how the presence of unobserved travel-experience attributes or conjoint activities can bias the estimation of the travel-time coefficient, and can lead to false conclusions with regards to the existence of negative valuations of travel-time savings. We note that while it is important not to interpret such estimates as travel-time coefficients per se, it is nevertheless similarly important to allow such effects to manifest themselves; as such, the use of distributions with fixed bounds is inappropriate. On the other hand, the use of unbounded distributions can lead to further problems, as their shape (especially in the case of symmetrical distributions) can falsely imply the presence of positive estimates. We note that a preferable solution is to use bounded distributions where the bounds are estimated from the data during model calibration. This allows for the effects of data impurities or model misspecifications to manifest themselves, while reducing the risk of bias as a result of the shape of the distribution. To conclude, a brief application is conducted to support the theoretical claims made in the paper.
```
@Article{HessBierPola05,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Estimation of value of travel-time savings using Mixed Logit models},
  journal = {Transportation Research Part A: Policy and Practice},
  year = {2005},
  volume = {39},
  number = {3},
  pages = {221-236},
  DOI = {10.1016/j.tra.2004.09.007}}}
```
Spada M., Bierlaire M., Liebling T. (2005). Decision-aid methodology for the school bus routing and scheduling problem. Transportation Science 39 (4):477-490

We consider the school bus routing and scheduling problem, where transportation demand is known and bus scheduling can be planned in advance. We present a comprehensive methodology designed to support the decision of practitioners. We first propose a modeling framework where the focus is on optimizing the level of service for a given number of buses, then we describe an automatic procedure generating a solution to the problem. The procedure first builds a feasible solution, which is subsequently improved using a heuristic. We analyze two important issues associated with this methodology. On the one hand, we analyze the performance of three types of heuristics both on real and synthetic data. We recommend the use of a simulated annealing technique exploring infeasible solutions, which performs slightly better than all others. More importantly, we find that the performance of all heuristics is not globally affected by the choice of the parameters. This is important from a practitioner viewpoint, because the fine-tuning of algorithm parameters is not critical for the algorithm’s performance. We have successfully applied our methods on real problems and on large-scale problems. On the other hand, we propose an interactive tool allowing the practitioner to visualize the proposed solution, to test its robustness, and to dynamically rebuild new solutions if the data of the original problem are modified.
```
@Article{SpadBierLieb05,
  author = {Michela Spada and Michel Bierlaire and Thomas Liebling},
  title = {Decision-aid methodology for the school bus routing and scheduling problem},
  journal = {Transportation Science},
  year = {2005},
  volume = {39},
  number = {4},
  pages = {477-490},
  DOI = {10.1287/trsc.1040.0096}}}
```

2004

Bierlaire M., Crittin F. (2004). An efficient algorithm for real-time estimation and prediction of dynamic OD table. Operations Research 52 (1):116-127

The problem of estimating and predicting Origin-Destination (OD) tables is known to be important and difficult. In the specific context of Intelligent Transportation Systems (ITS), the dynamic nature of the problem and the real-time requirements make it even more intricate. We consider here a least-square modeling approach for solving the OD estimation and prediction problem, which seems to offer convenient and flexible algorithms. The dynamic nature of the problem is represented by an autoregressive process, capturing the serial correlations of the state variables. Our formulation is inspired from Cascetta et al. (1993) and Ashok and Ben-Akiva (1993). We compare the Kalman filter algorithm to LSQR, an iterative algorithm proposed by Paige and Saunders (1982) for the solution of large-scale least-squares problems. LSQR explicitly exploits matrix sparsity, allowing to consider larger problems likely to occur in real applications. We show that the LSQR algorithm significantly decreases the computation effort needed by the Kalman filter approach for large-scale problems. We also provide a theoretical number of flops for both algorithms to predict which algorithm will perform better on a specific instance of the problem.
```
@Article{BierCrit04,
  author = {Michel Bierlaire and Frank Crittin},
  title = {An efficient algorithm for real-time estimation and prediction of dynamic OD table},
  journal = {Operations Research},
  year = {2004},
  volume = {52},
  number = {1},
  pages = {116-127},
  DOI = {10.1287/opre.1030.0071}}}
```

2002

Bierlaire M. (2002). The total demand scale: A new measure of quality for static and dynamic origin-destination trip tables. Transportation Research Part B: Methodological 36 (9):837-850

We propose a measure of quality for OD trip tables estimated from link counts. This measure, called the total demand scale is based only on the estimated OD trip table and on the assignment matrix used to estimate it. It is independent of the OD estimation method and of the technique used to overcome the underdetermination of the OD estimation problem. The total demand scale measures the intrinsic underdetermination related to the OD estimation problem, considering only the network topology and the underlying route choice model. Because it identifies the level of arbitrariness introduced by the a priori matrix in the estimation process, our approach helps to evaluate if an important amount of resources must be invested for the a priori matrix, or if the available link counts contains sufficient information. The computation of the total demand scale enables to identify at zero additional cost those OD pairs such that no measurement is available on any path linking them. A MATLAB code for the computation of the total demand scale is also provided.
```
@Article{Bier02,
  author = {Michel Bierlaire},
  title = {The total demand scale: A new measure of quality for static and dynamic origin-destination trip tables},
  journal = {Transportation Research Part B: Methodological},
  year = {2002},
  volume = {36},
  number = {9},
  pages = {837-850},
  DOI = {10.1016/S0191-2615(01)00036-4}}}
```
Ben-Akiva M., McFadden D., Train K., Walker J., Bhat C., Bierlaire M., Bolduc D., Boersch-Supan A., Brownstone D., Bunch D., Daly A., de Palma A., Gopinath D., Karlstrom A., Munizaga M. (2002). Hybrid choice models: Progress and challenges. Marketing Letters 13 (3):163-175

We discuss the development of predictive choice models that go beyond the random utility model in its narrowest formulation. Such approaches incorporate several elements of cognitive process that have been identified as important to the choice process, including strong dependence on history and context, perception formation, and latent constraints. A flexible and practical hybrid choice model is presented that integrates many types of discrete choice modeling methods, draws on different types of data, and allows for flexible disturbances and explicit modeling of latent psychological explanatory variables, heterogeneity, and latent segmentation. Both progress and challenges related to the development of the hybrid choice model are presented.
```
@Article{BenAMcFaTraiEtal02,
  author = {Moshe Ben-Akiva and Dan McFadden and Kenneth Train and Joan Walker and Chandra Bhat and Michel Bierlaire and Denis Bolduc and Axel Boersch-Supan and David Brownstone and David Bunch and Andrew Daly and Andr\'e {de Palma} and Dinesh Gopinath and Anders Karlstrom and Marcela Munizaga},
  title = {Hybrid choice models: Progress and challenges},
  journal = {Marketing Letters},
  year = {2002},
  volume = {13},
  number = {3},
  pages = {163-175},
  DOI = {10.1023/A:1020254301302}}}
```

Torday A., Bierlaire M., Dumont A. (2002). Seeing the wood and the trees: simulation-based evaluation of the effect of variable speed limit signs on capacity and user safety. Traffic technology international 1 :60-64


@Article{TordBierDumo02,
  author = {Alexandre Torday and Michel Bierlaire and Andr\'e-Gilles Dumont},
  title = {Seeing the wood and the trees: simulation-based evaluation of the effect of variable speed limit signs on capacity and user safety},
  journal = {Traffic technology international},
  year = {2002},
  volume = {1},
  pages = {60-64}}}

2001

Torday A., Bierlaire M., Dumont A. (2001). Modelling evaluation of impact of variable speed limitation sign posts on road capacity and user safety. Strasse und Verkehr 87 (6):283-286

La télématique des transports intéresse les gestionnaires qui voient en elle la solution à plusieurs de leurs problèmes, mais elle est également un thème qui passionne de nombreux chercheurs. Si la plupart des outils développés semblent pouvoir offrir des résultats prometteurs, il faut se garder de céder trop facilement à l'élan d'optimisme qui les accompagne. Ils se basent souvent sur des justifications trop théoriques ou conceptuelles, si ce n'est sur des préjugés trop bien ancrés dans nos esprits. Comme dans tout domaine technique, il paraît audacieux de se passer d'une solide étude d'évaluation avant l'implantation d'un service de télématique, même si l'on est convaincu de son efficacité. Parmi les outils servant à de telles évaluations, les simulateurs de trafic routier peuvent être d'une grande utilité, qu'ils soient macro, méso ou microscopiques. Dans le cadre du projet PAPABILES (Projet autoroutier pilote Aubonne-Belmont pour une initiative lausannoise d'évaluation par simulation), une telle évaluation a été réalisée avec l'appui du service des routes de l'Etat de Vaud. Elle avait pour but de déterminer les effets de l'implantation de panneaux à limitation de vitesses variables (PLVV) sur un tronçon autoroutier fortement chargé, au niveau de sa capacité et de la sécurité des usagers. Pour cela, le cas concret de l'autoroute A 1 entre Aubonne et l'échangeur de Crissier (à l'ouest de Lausanne) a été retenu. En effet, ce tronçon est soumis à des charges de trafic particulièrement importantes, surtout à partir de l'entrée de Morges-est en direction de Lausanne. Dans cette région, le service des routes du canton de Vaud projette d'implanter des panneaux à limitation de vitesse variables.
```
@Article{TordBierDumo01,
  author = {Alexandre Torday and Michel Bierlaire and Andr\'e-Gilles Dumont},
  title = {Modelling evaluation of impact of variable speed limitation sign posts on road capacity and user safety},
  journal = {Strasse und Verkehr},
  year = {2001},
  volume = {87},
  number = {6},
  pages = {283-286}}}
```
Ben-Akiva M., Bierlaire M., Burton D., Koutsopoulos H., Mishalani R. (2001). Network state estimation and prediction for real-time transportation management applications. Networks and Spatial Economics 1 (3-4):293-318

Advanced Traveler Information Systems (ATIS) and Advanced Traffic Management Systems (ATMS) have the potential to contribute to the solution of the traffic congestion problem. DynaMIT is a real-time system that can be used to generate guidance for travelers. The main principle on which DynaMIT is based is that information should be consistent, and user optimal. Consistency implies that the traffic conditions experienced by the travelers are consistent with the condition assumed in generating the guidance. To generate consistent user optimal information, DynaMIT performs two main functions: state estimation and prediction. A demand simulator and a supply simulator interact to perform these tasks. A case study demonstrates the value of the system.
```
@Article{BenABierBurtKoutMish01,
  author = {Moshe Ben-Akiva and Michel Bierlaire and Didier Burton and Haris Koutsopoulos and Rabi Mishalani},
  title = {Network state estimation and prediction for real-time transportation management applications},
  journal = {Networks and Spatial Economics},
  year = {2001},
  volume = {1},
  number = {3-4},
  pages = {293-318},
  DOI = {10.1023/A:1012883811652}}}
```

1998

Dellaert B., Arentze T., Bierlaire M., Borgers A., Timmermans H. (1998). Investigating consumers' tendency to combine multiple shopping purposes and destinations. Journal of Marketing Research 35 (2):177-188


@Article{DellArenBierBogeTimm98,
  author = {Benedict Dellaert and Theo Arentze and Michel Bierlaire and Alois Borgers and Harry Timmermans},
  title = {Investigating consumers' tendency to combine multiple shopping purposes and destinations},
  journal = {Journal of Marketing Research},
  year = {1998},
  volume = {35},
  number = {2},
  pages = {177-188},
  DOI = {10.2307/3151846}}}

1997

Bierlaire M., Lotan T., Toint P. (1997). On the overspecification of multinomial and nested logit models due to alternative specific constants. Transportation Science 31 (4):363-371


@Article{BierLotaToin97,
  author = {Michel Bierlaire and Tsippy Lotan and Philippe Toint},
  title = { On the overspecification of multinomial and nested logit models due to alternative specific constants},
  journal = {Transportation Science},
  year = {1997},
  volume = {31},
  number = {4},
  pages = {363-371},
  DOI = {10.1287/trsc.31.4.363}}}

1995

Bierlaire M., Toint P. (1995). MEUSE: an origin-destination estimator that exploits structure. Transportation Research Part B: Methodological 29 (1):47-60

This article proposes an improvement of existing methods of origin-destination matrix estimation by an explicit use of data describing the structure of the matrix. These data can be obtained from parking surveys. The new model is applied on both illustrative and real examples, and the results are discussed. Comparisons with the results obtained with SATURN/ME2 and the generalized least-squares method are also presented.
```
@Article{BierToin95,
  author = {Michel Bierlaire and Philippe Toint},
  title = {MEUSE: an origin-destination estimator that exploits structure},
  journal = {Transportation Research Part B: Methodological},
  year = {1995},
  volume = {29},
  number = {1},
  pages = {47-60},
  DOI = {10.1016/0191-2615(94)00025-U}}}
```

1991

Bierlaire M. (1991). Evaluation de la demande en trafic : quelques m�thodes de distribution. Annales de la Soci�t� Scientifique de Bruxelles 105 (1-2):17-66


@Article{Bier91,
  author = {Michel Bierlaire},
  title = {Evaluation de la demande en trafic : quelques m\'ethodes de distribution},
  journal = {Annales de la Soci\'et\'e Scientifique de Bruxelles},
  year = {1991},
  volume = {105},
  number = {1-2},
  pages = {17-66}}}

Bierlaire M., Toint P., Tuyttens D. (1991). On iterative algorithms for linear least squares problems with bound constraints. Linear Algebra and its Applications 143 (1):111-143

Three new iterative methods for the solution of the linear least squares problem with bound constraints are presented and their performance analyzed. The first is a modification of a method proposed by Lötstedt, while the two others are characterized by a technique allowing for fast active set changes, resulting in noticeable improvements in the speed with which constraints active at the solution are identified. The numerical efficiency of those algorithms is experimentally studied, with particular emphasis on the dependence on the starting point and the use of preconditioning for ill-conditioned problems.
```
@Article{BierToinTuyt91,
  author = {Michel Bierlaire and Philippe Toint and Daniel Tuyttens},
  title = {On iterative algorithms for linear least squares problems with bound constraints},
  journal = {Linear Algebra and its Applications},
  year = {1991},
  volume = {143},
  number = {1},
  pages = {111-143},
  DOI = {10.1016/0024-3795(91)90009-L}}}
```

Books [4]

Bierlaire M., Kaufmann V., Rérat P. (2017) La mobilité en questions. Presses Polytechniques et Universitaires Romandes (PPUR) , Lausanne, Switzerland


@Book{BierKaufRera17,
  author = {Michel Bierlaire and Vincent Kaufmann and Patrick R\'erat},
  title = {La mobilit\'e en questions},
  publisher = {Presses Polytechniques et Universitaires Romandes (PPUR)},
  address = {Lausanne, Switzerland},
  year = {2017}}}

Bierlaire M. (2015) Optimization: Principles and Algorithms. EPFL Press , Lausanne [ISBN 9782940222780]


@Book{BIER15,
  author = {Michel Bierlaire},
  title = {Optimization: Principles and Algorithms},
  publisher = {EPFL Press},
  address = {Lausanne},
  ISBN = {9782940222780},
  year = {2015}}}

Bierlaire M., de Palma A., Hurtubia R., Waddell P. (2015) Integrated Transport and Land Use Modeling for Sustainable Cities. EPFL Press , Lausanne, Switzerland [ISBN 978-2-940222-72-8]


@Book{BierDePaHurtWadd15,
  author = {Michel Bierlaire and Andr\'e {de Palma} and Ricardo Hurtubia and Paul Waddell},
  title = {Integrated Transport and Land Use Modeling for Sustainable Cities},
  publisher = {EPFL Press},
  address = {Lausanne, Switzerland},
  ISBN = {978-2-940222-72-8},
  year = {2015}}}

Bierlaire M. (2006) Introduction à l'optimisation différentiable. Presses Polytechniques et Universitaires Romandes , Lausanne [ISBN 978-2-88074-669-8]


@Book{BIER06,
  author = {Michel Bierlaire},
  title = {Introduction \`a l'optimisation diff\'erentiable},
  publisher = {Presses Polytechniques et Universitaires Romandes},
  address = {Lausanne},
  ISBN = {978-2-88074-669-8},
  year = {2006}}}

Book chapters [43]

2023

Atac S., Obrenovic N., Bierlaire M. (2023) A General Framework to Evaluate Different Rebalancing Operations Strategies in One-Way Car Sharing Systems. In Grothe, O., Nickel, S., Rebennack, S., Stein, O. (ed) Operations Research Proceedings 2022. OR 2022., Springer [ISBN 978-3-031-24906-8]


@InProceedings{AtacObreBier,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {A General Framework to Evaluate Different Rebalancing Operations Strategies in One-Way Car Sharing Systems},
  year = {2023},
  booktile = {Operations Research Proceedings 2022. OR 2022.},
  editor = {Grothe and  O. and  Nickel and  S. and  Rebennack and  S. and  Stein and  O.},
  series = {Lecture Notes in Operations Research},
  publisher = {Springer}}}

Lalic M., Obrenovic N., Brdar S., Lukovic I., Bierlaire M. (2023) Assisting Passengers on Rerouted Train Service Using Vehicle Sharing System. In Cappanera, P., Lapucci, M., Schoen, F., Sciandrone, M., Tardella, F., Visintin, F. (ed) Optimization and Decision Science: Operations Research, Inclusion and Equity, Springer [ISBN 978-3-031-28862-3]


@InProceedings{LaliObreBrdaLukoBier23,
  author = {Maksim Lalic and Nikola Obrenovic and Sanja Brdar and Ivan Lukovic and Michel Bierlaire},
  title = {Assisting Passengers on Rerouted Train Service Using Vehicle Sharing System},
  year = {2023},
  booktile = {Optimization and Decision Science: Operations Research, Inclusion and Equity},
  editor = {Cappanera and  P. and  Lapucci and  M. and  Schoen and  F. and  Sciandrone and  M. and  Tardella and  F. and  Visintin and  F.},
  volume = {9},
  series = {AIRO Springer Series},
  publisher = {Springer},
  pages = {277-287}}}

2021

Sharif Azadeh S., Maknoon Y., Chen J., Bierlaire M. (2021) The Impact of Collaborative Scheduling and Routing for Interconnected Logistics: A European Case Study. In Jafar Rezaei (ed) Strategic Decision Making for Sustainable Management of Industrial Networks, Springer , Switzerland [ISBN 978-3-030-55384-5]


@InProceedings{SharMaknChenBier21,
  author = {Shadi {Sharif Azadeh} and Yousef Maknoon and {Jiang Hang} Chen and Michel Bierlaire},
  title = {The Impact of Collaborative Scheduling and Routing for Interconnected Logistics: A European Case Study},
  year = {2021},
  booktile = {Strategic Decision Making for Sustainable Management of Industrial Networks},
  editor = {Jafar Rezaei},
  publisher = {Springer},
  address = {Switzerland},
  pages = {35-56}}}

2020

Bierlaire M., Scarinci R., Nikolic M., Oyama Y., Molyneaux N., Wang Z. (2020) Methodologies for understanding and improving pedestrian mobility. In Ole B. Jensen, Claus Lassen, Vincent Kaufmann, Malene Freudendal-Pedersen, Ida Sofie Gøtzsche Lange (ed) Handbook of Urban Mobilities, Routledge [ISBN 9781138482197]


@InProceedings{BierScarNikoOyamMolyWang20,
  author = {Michel Bierlaire and Riccardo Scarinci and Marija Nikolic and Yuki Oyama and Nicholas Molyneaux and Zengchao Wang},
  title = {Methodologies for understanding and improving pedestrian mobility},
  year = {2020},
  booktile = {Handbook of Urban Mobilities},
  editor = {Ole B. Jensen and  Claus Lassen and  Vincent Kaufmann and  Malene Freudendal-Pedersen and  Ida Sofie G{\o}tzsche Lange},
  series = {Routledge International Handbooks},
  publisher = {Routledge}}}

2017

Bierlaire M., Baehler D. (2017) Faut-il construire plus de routes pour limiter les embouteillages ?. In Bierlaire M., Kaufmann V. and Rérat P. (ed) La mobilité en questions, Presses Polytechniques et Universitaires Romandes (PPUR) [ISBN 978-2-88915-172-1]


@InProceedings{BierBaeh2017,
  author = {Michel Bierlaire and Daniel Baehler},
  title = {Faut-il construire plus de routes pour limiter les embouteillages ?},
  year = {2017},
  booktile = {La mobilit\'e en questions},
  editor = {Bierlaire M. and  Kaufmann V. and R\'erat P.},
  publisher = {Presses Polytechniques et Universitaires Romandes (PPUR)},
  pages = {9-22}}}

Bierlaire M., Kaufmann V., Rérat P. (2017) Pour une approche globale, informée et interdisciplinaire de la mobilité. In Bierlaire M., Kaufmann V. and Rérat P. (ed) La mobilité en questions, Presses Polytechniques et Universitaires Romandes (PPUR) , Lausanne, Suisse [ISBN 978-2-88915-172-1]


@InProceedings{BierKaufRera2017,
  author = {Michel Bierlaire and Vincent Kaufmann and Patrick R\'erat},
  title = {Pour une approche globale, inform\'ee et interdisciplinaire de la mobilit\'e},
  year = {2017},
  booktile = {La mobilit\'e en questions},
  editor = {Bierlaire M. and  Kaufmann V. and R\'erat P.},
  publisher = {Presses Polytechniques et Universitaires Romandes (PPUR)},
  address = {Lausanne, Suisse},
  pages = {181-184}}}

Bierlaire M., Lurkin V. (2017) Introduction to Disaggregate Demand Models. In R. Batta and J. Peng (ed) Tutorials in Operations Research Leading Developments from INFORMS Communities, Institute for Operations Research and the Management Sciences (INFORMS) [ISBN 978-0-9906153-0-9]


@InProceedings{BierLurk17,
  author = {Michel Bierlaire and Virginie Lurkin},
  title = {Introduction to Disaggregate Demand Models},
  year = {2017},
  booktile = {Tutorials in Operations Research

Leading Developments from INFORMS Communities},
  editor = {R. Batta and J. Peng},
  series = {Tutorials in Operations Research},
  publisher = { Institute for Operations Research and the

Management Sciences (INFORMS)},
  pages = {48-67}}}

Munafò S., Bierlaire M. (2017) La densité urbaine permet-elle de favoriser une mobilité plus durable ? . In Bierlaire M., Kaufmann V. and Rérat P. (ed) La mobilité en questions, Presses Polytechniques et Universitaires Romandes (PPUR) [ISBN 978-2-88915-172-1]


@InProceedings{Muna2017,
  author = {S\'ebastien Munaf\`o and Michel Bierlaire},
  title = {La densit\'e urbaine permet-elle de favoriser une mobilit\'e plus durable ? },
  year = {2017},
  booktile = {La mobilit\'e en questions},
  editor = {Bierlaire M. and  Kaufmann V. and R\'erat P.},
  publisher = {Presses Polytechniques et Universitaires Romandes (PPUR)},
  pages = {124-140}}}

Rérat P., Bierlaire M. (2017) Les déplacements pendulaires font-ils partie du choix d'un lieu d'habitation ?. In Bierlaire M., Kaufmann V. and Rérat P. (ed) La mobilité en questions, Presses Polytechniques et Universitaires Romandes (PPUR) , Lausanne, Suisse [ISBN 978-2-88915-172-1]


@InProceedings{ReratBier2017,
  author = {Patrick R\'erat and Michel Bierlaire},
  title = {Les d\'eplacements pendulaires font-ils partie du choix d'un lieu d'habitation ?},
  year = {2017},
  booktile = {La mobilit\'e en questions},
  editor = {Bierlaire M. and  Kaufmann V. and R\'erat P.},
  publisher = {Presses Polytechniques et Universitaires Romandes (PPUR)},
  address = {Lausanne, Suisse},
  pages = {141-155}}}

2015

de Palma A., Bierlaire M., Hurtubia R., Waddell P. (2015) Future challenges in transport and land use modeling. In Bierlaire, de Palma, Hurtubia and Waddell (ed) Integrated Transport and Land Use Modeling for Sustainable Cities, EPFL Press , Lausanne, Switzerland [ISBN 978-2-940222-72-8]


@InProceedings{dePaBierHurtWadd15,
  author = {Andr\'e {de Palma} and Michel Bierlaire and Ricardo Hurtubia and Paul Waddell},
  title = {Future challenges in transport and land use modeling},
  year = {2015},
  booktile = {Integrated Transport and Land Use Modeling for Sustainable Cities},
  editor = {Bierlaire and  de Palma and  Hurtubia and Waddell},
  publisher = {EPFL Press},
  address = {Lausanne, Switzerland},
  pages = {513-530}}}

Farooq B., Hurtubia R., Bierlaire M. (2015) Simulation based generation of a synthetic population for Brussels. In Bierlaire, de Palma, Hurtubia and Waddell (ed) Integrated Transport and Land Use Modeling for Sustainable Cities, [ISBN 978-2-940222-72-8]


@InProceedings{FaroHurtBier15,
  author = {Bilal Farooq and Ricardo Hurtubia and Michel Bierlaire},
  title = {Simulation based generation of a synthetic population for Brussels},
  year = {2015},
  booktile = {Integrated Transport and Land Use Modeling for Sustainable Cities},
  editor = {Bierlaire and  de Palma and  Hurtubia and Waddell},
  pages = {95-112}}}

Farooq B., Mueller K., Bierlaire M., Axhausen K. (2015) Methodologies for synthesizing populations. In Bierlaire, de Palma, Hurtubia and Waddell (ed) Integrated Transport and Land Use Modeling for Sustainable Cities, EPFL Press , Lausanne, Switzerland [ISBN 978-2-940222-72-8]


@InProceedings{FaroMuelBierAxha15,
  author = {Bilal Farooq and Kirill Mueller and Michel Bierlaire and Kay Axhausen},
  title = {Methodologies for synthesizing populations},
  year = {2015},
  booktile = {Integrated Transport and Land Use Modeling for Sustainable Cities},
  editor = {Bierlaire and  de Palma and  Hurtubia and Waddell},
  publisher = {EPFL Press},
  address = {Lausanne, Switzerland},
  pages = {77-94}}}

Hurtubia R., Bierlaire M. (2015) Microsimulation for land use modeling: implementation challenges. In Bierlaire, de Palma, Hurtubia and Waddell (ed) Integrated Transport and Land Use Modeling for Sustainable Cities, EPFL Press , Lausanne, Switzerland [ISBN 978-2-940222-72-8]


@InProceedings{HurtBier15,
  author = {Ricardo Hurtubia and Michel Bierlaire},
  title = {Microsimulation for land use modeling: implementation challenges},
  year = {2015},
  booktile = {Integrated Transport and Land Use Modeling for Sustainable Cities},
  editor = {Bierlaire and  de Palma and  Hurtubia and Waddell},
  publisher = {EPFL Press},
  address = {Lausanne, Switzerland},
  pages = {41-54}}}

Waddell P., de Palma A., Bierlaire M., Hurtubia R. (2015) SustainCity: Overview and introduction. In Bierlaire, de Palma, Hurtubia and Waddell (ed) Integrated Transport and Land Use Modeling for Sustainable Cities, EPFL Press , Lausanne, Switzerland [ISBN 978-2-940222-72-8]


@InProceedings{WaddDePaBierHurt15,
  author = {Paul Waddell and Andr\'e {de Palma} and Michel Bierlaire and Ricardo Hurtubia},
  title = {SustainCity: Overview and introduction},
  year = {2015},
  booktile = {Integrated Transport and Land Use Modeling for Sustainable Cities},
  editor = {Bierlaire and  de Palma and  Hurtubia and Waddell},
  publisher = {EPFL Press},
  address = {Lausanne, Switzerland},
  pages = {1-14}}}

2014

Danalet A., Bierlaire M., Farooq B. (2014) Estimating Pedestrian Destinations Using Traces from WiFi Infrastructures. In U. Weidmann, U. Kirsch and M. Schreckenberg (ed) Pedestrian and Evacuation Dynamics 2012, Springer International Publishing [ISBN 978-3-319-02446-2]


@InProceedings{DanaletBierlaireFarooqPED2012,
  author = {Antonin Danalet and Michel Bierlaire and Bilal Farooq},
  title = {Estimating Pedestrian Destinations Using Traces from WiFi Infrastructures},
  year = {2014},
  booktile = {Pedestrian and Evacuation Dynamics 2012},
  editor = {U. Weidmann and  U. Kirsch and M. Schreckenberg},
  publisher = {Springer International Publishing},
  pages = {1341-1352}}}

Kazagli E., Chen J., Bierlaire M. (2014) Individual Mobility Analysis Using Smartphone Data. In Soora Rasouli and Harry Timmermans (ed) Mobile Technologies for Activity-Travel Data Collection and Analysis, IGI Global [ISBN 9781466661707]


@InProceedings{KazChenBier_IGI,
  author = {Evanthia Kazagli and Jingmin Chen and Michel Bierlaire},
  title = { Individual Mobility Analysis Using Smartphone Data},
  year = {2014},
  booktile = {Mobile Technologies for Activity-Travel Data Collection and Analysis},
  editor = {Soora Rasouli and Harry Timmermans},
  publisher = {IGI Global},
  pages = {187-208}}}

2012

Atasoy B., Salani M., Bierlaire M. (2012) Integrated schedule planning with supply-demand interactions for a new generation of aircrafts. In D. Klatte et al. (ed) Operations Research Proceedings 2011, Springer


@InProceedings{AtasSalaBier12,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {Integrated schedule planning with supply-demand interactions for a new generation of aircrafts},
  year = {2012},
  booktile = {Operations Research Proceedings 2011},
  editor = {D. Klatte et al. },
  publisher = {Springer},
  pages = {495-500}}}

Flötteröd G., Bierlaire M. (2012) Running urban microsimulations consistently with real-world data. In S. Müller Arisona, G. Aschwanden, J. Halatsch (ed) Digital Urban Modelling and Simulation, Springer [ISBN 978-3-642-29757-1]


@InProceedings{FloeDUM2011,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Running urban microsimulations consistently with real-world data},
  year = {2012},
  booktile = {Digital Urban Modelling and Simulation},
  editor = {S. M\"uller Arisona and  G. Aschwanden and  J. Halatsch},
  series = {CCIS series},
  publisher = {Springer},
  pages = {181-199}}}

2011

Osorio C., Flötteröd G., Bierlaire M. (2011) Dynamic network loading: a stochastic differentiable model that derives link state distributions. In M. Cassidy, A. Skarbadonis (ed) Procedia - Social and Behavioral Sciences. Papers selected for the 19th International Symposium on Transportation and Traffic Theory, Elsevier


@InProceedings{OsoFloBieISTTTbook11,
  author = {Carolina Osorio and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Dynamic network loading: a stochastic differentiable model that derives link state distributions},
  year = {2011},
  booktile = {Procedia - Social and Behavioral Sciences. Papers selected for the 19th International Symposium on Transportation and Traffic Theory},
  editor = {M. Cassidy and  A. Skarbadonis},
  volume = {17},
  series = {Procedia - Social and Behavioral Sciences},
  publisher = {Elsevier},
  pages = {364-381}}}

2010

Abou-Zeid M., Ben-Akiva M., Bierlaire M., Choudhury C., Hess S. (2010) Attitudes and Value of Time Heterogeneity. In Eddy Van de Voorde and Thierry Vanelslander (ed) Applied Transport Economics A Management and Policy Perspective, de boeck


@InProceedings{AbouBenABierChouHess10,
  author = {Maya Abou-Zeid and Moshe Ben-Akiva and Michel Bierlaire and Charisma Choudhury and Stephane Hess},
  title = {Attitudes and Value of Time Heterogeneity},
  year = {2010},
  booktile = {Applied Transport Economics A Management and Policy Perspective},
  editor = {Eddy Van de Voorde and Thierry Vanelslander},
  publisher = {de boeck},
  pages = {523-545}}}

Frejinger E., Bierlaire M. (2010) On Path Generation Algorithms for Route Choice Models. In S. Hess and A. Daly (ed) Choice Modelling: The State-of-the-Art and the State-of-Practice, Emerald Group Publishing Limited [ISBN 978-1-84950-772-1]


@InProceedings{FrejBier10,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {On Path Generation Algorithms for Route Choice Models},
  year = {2010},
  booktile = {Choice Modelling: The State-of-the-Art and the State-of-Practice},
  editor = {S. Hess and A. Daly},
  publisher = {Emerald Group Publishing Limited},
  pages = {307-315}}}

Sorci M., Robin T., Cruz J., Bierlaire M., Thiran J., Antonini G. (2010) Capturing Human Perception of Facial Expressions by Discrete Choice Modelling. In S. Hess and A. Daly (ed) Choice Modelling: The State-of-the-Art and the State-of-Practice, Emerald Group Publishing Limited [ISBN 978-1-84950-772-1]


@InProceedings{SorcRobiCruzBierThirAnto10,
  author = {Matteo Sorci and Thomas Robin and Javier Cruz and Michel Bierlaire and Jean-Philippe Thiran and Gianluca Antonini},
  title = {Capturing Human Perception of Facial Expressions by Discrete Choice Modelling},
  year = {2010},
  booktile = {Choice Modelling: The State-of-the-Art and the State-of-Practice},
  editor = {S. Hess and A. Daly},
  publisher = {Emerald Group Publishing Limited},
  pages = {101-136}}}

2009

Bierlaire M., Robin T. (2009) Pedestrians Choices. In H. Timmermans (ed) Pedestrian Behavior. Models, Data Collection and Applications, Emerald Group Publishing Limited [ISBN 978-1-84855-750-5]


@InProceedings{BierRobi09,
  author = {Michel Bierlaire and Thomas Robin},
  title = {Pedestrians Choices},
  year = {2009},
  booktile = {Pedestrian Behavior. Models, Data Collection and Applications},
  editor = {H. Timmermans},
  publisher = {Emerald Group Publishing Limited},
  pages = {1-26}}}

2008

Bierlaire M. (2008) Recent methodological developments in discrete choice models. In L. D’Ambra, P. Rostirolla and M. Squillante (ed) Metodi, Modelli, e Tecnologie dell’Informazione a Supporto delle Decisioni. Parte prima: metodologie, [ISBN 978-88-464-8381-2]


@InProceedings{Ischia-Bier07,
  author = {Michel Bierlaire},
  title = {Recent methodological developments in discrete choice models},
  year = {2008},
  booktile = {Metodi, Modelli, e Tecnologie dell{\textquoteright}Informazione a Supporto delle Decisioni. Parte prima: metodologie},
  editor = {L. D{\textquoteright}Ambra and  P. Rostirolla and M. Squillante},
  pages = {43-54}}}

2007

Antonini G., Bierlaire M. (2007) A discrete choice framework for acceleration and direction change behaviors in walking pedestrians. In Waldau, N., Gattermann, P., Knoflacher, H. and Schreckenberg, M. (ed) Pedestrian and Evacuation Dynamics 2005, Springer [ISBN 978-3-540-47062-5]


@InProceedings{AntoBier07,
  author = {Gianluca Antonini and Michel Bierlaire},
  title = {A discrete choice framework for acceleration and direction change behaviors in walking pedestrians},
  year = {2007},
  booktile = {Pedestrian and Evacuation Dynamics 2005},
  editor = {Waldau and  N. and  Gattermann and  P. and  Knoflacher and  H. and Schreckenberg and  M.},
  publisher = {Springer},
  pages = {155-166}}}

Bierlaire M., Antonini G., Weber M. (2007) Behavioural dynamics for pedestrians. In Axhausen, K. W. (ed) Moving through nets: the physical and social dimensions of travel, Elsevier [ISBN 0 08 044213 7]


@InProceedings{BierAntoWebe07,
  author = {Michel Bierlaire and Gianluca Antonini and Mats Weber},
  title = {Behavioural dynamics for pedestrians},
  year = {2007},
  booktile = {Moving through nets: the physical and social dimensions of travel},
  editor = {Axhausen and  K. W.},
  publisher = {Elsevier},
  pages = {81-105}}}

Liebling T., Bierlaire M., Crittin F., Hêche J., Thiémard E., Stagno A., Righetti F. (2007) Modeling and simulation in logistics. In Perret, F.-L., Jaffeux, C., Fender, M. and Wieser, Ph. (ed) Essential of logistics and management, EPFL Press , Lausanne, Switzwerland [ISBN 978-2-940222-16-2]


@InProceedings{LiebBierCritHechThieStagRigh07,
  author = {Thomas Liebling and Michel Bierlaire and Frank Crittin and Jean-Fran\c{c}ois H\^eche and Eric Thi\'emard and Antonio Stagno and Franco Righetti},
  title = {Modeling and simulation in logistics},
  year = {2007},
  booktile = {Essential of logistics and management},
  editor = {Perret and  F.-L. and  Jaffeux and  C. and  Fender and  M. and Wieser and  Ph.},
  series = {Management of Technology Series},
  publisher = {EPFL Press},
  address = {Lausanne, Switzwerland},
  pages = {283-322}}}

2006

Antonini G., Sorci M., Bierlaire M., Thiran J. (2006) Discrete Choice Models for Static Facial Expression Recognition. In Blanc-Talon, J., Philips, W., Popescu, D. and Scheunders, P. (ed) Advanced Concepts for Intelligent Vision Systems, Springer Berlin / Heidelberg [ISBN 978-3-540-44630-9]


@InProceedings{AntoSorcBierThir06,
  author = {Gianluca Antonini and Matteo Sorci and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Discrete Choice Models for Static Facial Expression Recognition},
  year = {2006},
  booktile = {Advanced Concepts for Intelligent Vision Systems},
  editor = {Blanc-Talon and  J. and  Philips and  W. and  Popescu and  D. and Scheunders and  P.},
  volume = {4179},
  series = {Lecture Notes in Computer Science},
  publisher = {Springer Berlin / Heidelberg},
  pages = {710-721}}}

Bogers E., Bierlaire M., Hoogendoorn S. (2006) Modelling learning behaviour in route choice. In H. J. van Zuylen (ed) TRAIL in motion - Selected papers, TRAIL Research School , Delft, The Netherlands [ISBN 90-5584-081-5]


@InProceedings{BogeBierHoog06,
  author = {Enide Bogers and Michel Bierlaire and Serge Hoogendoorn},
  title = {Modelling learning behaviour in route choice},
  year = {2006},
  booktile = {TRAIL in motion - Selected papers},
  editor = {H. J. van Zuylen},
  publisher = {TRAIL Research School},
  address = {Delft, The Netherlands},
  pages = {25-39}}}

2005

Bierlaire M. (2005) Capturing complex transportation behaviors with advanced random utility models. In van Zuylen, H. (ed) The reliability of traveling and the robustness of transport systems, TRAIL Research School


@InProceedings{Bier05,
  author = {Michel Bierlaire},
  title = {Capturing complex transportation behaviors with advanced random utility models},
  year = {2005},
  booktile = {The reliability of traveling and the robustness of transport systems},
  editor = {van Zuylen and  H.},
  publisher = {TRAIL Research School},
  pages = {23-44}}}

Hess S., Bierlaire M., Polak J. (2005) Capturing correlation and taste heterogeneity with Mixed GEV models. In Scarpa, R. and Alberini, A. (ed) Application of simulation methods in environmental and resource economics, Springer [ISBN 978-1-4020-3683-5]


@InProceedings{HessBierPola05,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Capturing correlation and taste heterogeneity with Mixed GEV models},
  year = {2005},
  booktile = {Application of simulation methods in environmental and resource economics},
  editor = {Scarpa and  R. and Alberini and  A.},
  volume = {6},
  series = {The Economics of Non-Market Goods and Resources},
  publisher = {Springer},
  pages = {55-76}}}

Hess S., Polak J., Bierlaire M. (2005) Functional approximations to alternative-specific constants in time-period choice-modelling. In Mahmassani, H. S. (ed) Transportation and Traffic Theory. Flow, Dynamics and Human Interaction, Elsevier [ISBN 9780080446806]


@InProceedings{HessPolaBier05,
  author = {Stephane Hess and John Polak and Michel Bierlaire},
  title = {Functional approximations to alternative-specific constants in time-period choice-modelling},
  year = {2005},
  booktile = {Transportation and Traffic Theory. Flow, Dynamics and Human Interaction},
  editor = {Mahmassani and  H. S.},
  publisher = {Elsevier},
  pages = {545-564}}}

Venegas S., Antonini G., Thiran J., Bierlaire M. (2005) Automatic Pedestrian Tracking Using Discrete Choice Models and Image Correlation Techniques. In Bengio S. and Bourlard H. (ed) Machine Learning for Multimodal Interaction, Springer [ISBN 978-3540245094]


@InProceedings{VeneAntoThirBier05,
  author = {Santiago Venegas and Gianluca Antonini and Jean-Philippe Thiran and Michel Bierlaire},
  title = {Automatic Pedestrian Tracking Using Discrete Choice Models and Image Correlation Techniques},
  year = {2005},
  booktile = {Machine Learning for Multimodal Interaction},
  editor = {Bengio S. and Bourlard H.},
  volume = {3361},
  series = {Lecture Notes in Computer Science},
  publisher = {Springer},
  pages = {341 - 348}}}

2004

Bierlaire M. (2004) Estimation et prédiction en temps-réel de tables. In Aron, M., Boillot, F. and Lebacque, J.-P. (ed) Modélisation du trafic - Actes du Groupe de Travail 2002, INRETS [ISBN 2-85782-606-0]


@InProceedings{Bier04,
  author = {Michel Bierlaire},
  title = {Estimation et pr\'ediction en temps-r\'eel de tables},
  year = {2004},
  booktile = {Mod\'elisation du trafic - Actes du Groupe de Travail 2002},
  editor = {Aron and  M. and  Boillot and  F. and Lebacque and  J.-P.},
  series = { Les collections de l'INRETS},
  publisher = {INRETS},
  pages = {31-42}}}

Oeuvray R., Bierlaire M. (2004) A New Derivative-free Algorithm for the Medical Image Registration Problem. In Hamza, M. H. (ed) Modelling, Simulation, and Optimization, Acta Press [ISBN 0-88986-424-1]


@InProceedings{OeuvBier04,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {A New Derivative-free Algorithm for the Medical Image Registration Problem},
  year = {2004},
  booktile = {Modelling, Simulation, and Optimization},
  editor = {Hamza and  M. H.},
  publisher = {Acta Press}}}

2003

Ben-Akiva M., Bierlaire M. (2003) Discrete choice models with applications to departure time and route choice. In Hall, R. (ed) Handbook of Transportation Science, 2nd edition, Kluwer [ISBN 1-4020-7246-5]


@InProceedings{BenABier03,
  author = {Moshe Ben-Akiva and Michel Bierlaire},
  title = {Discrete choice models with applications to departure time and route choice},
  year = {2003},
  booktile = {Handbook of Transportation Science, 2nd edition},
  editor = {Hall and  R.},
  series = {Operations Research and Management Science},
  publisher = {Kluwer},
  pages = {7-38}}}

Spada M., Bierlaire M., Liebling T. (2003) School bus routing and scheduling problem. In Leopold-Wildburger, U., Rendl, F. and Wäscher, G. (ed) Operations Research Proceedings 2002, Springer [ISBN 3540003878]


@InProceedings{SpadBierLieb03,
  author = {Michela Spada and Michel Bierlaire and Thomas Liebling},
  title = {School bus routing and scheduling problem},
  year = {2003},
  booktile = {Operations Research Proceedings 2002},
  editor = {Leopold-Wildburger and  U. and  Rendl and  F. and W\"ascher and  G.},
  publisher = { Springer},
  pages = {180-186}}}

2002

Ben-Akiva M., Bierlaire M., Koutsopoulos H., Mishalani R. (2002) Real-time simulation of traffic demand-supply interactions within DynaMIT. In Gendreau, M. and Marcotte, P. (ed) Transportation and network analysis: current trends. Miscellenea in honor of Michael Florian, Kluwer [ISBN 1-4020-0488-5]


@InProceedings{BenABierKoutMish02,
  author = {Moshe Ben-Akiva and Michel Bierlaire and Haris Koutsopoulos and Rabi Mishalani},
  title = {Real-time simulation of traffic demand-supply interactions within DynaMIT},
  year = {2002},
  booktile = {Transportation and network analysis: current trends. Miscellenea in honor of Michael Florian},
  editor = {Gendreau and  M. and Marcotte and  P.},
  publisher = {Kluwer},
  pages = {19-36}}}

Liebling T., Bierlaire M., Crittin F., Hêche J., Thiémard E., Stagno A., Righetti F. (2002) Modeling and simulation in logistics. In Perret, F.-L. and Jaffeux, C. (ed) The Essentials of Logistics and Management, EPFL Press [ISBN 2-88074-510-1]


@InProceedings{LiebBierCritHechThieStagRigh02,
  author = {Thomas Liebling and Michel Bierlaire and Frank Crittin and Jean-Fran\c{c}ois H\^eche and Eric Thi\'emard and Antonio Stagno and Franco Righetti},
  title = {Modeling and simulation in logistics},
  year = {2002},
  booktile = {The Essentials of Logistics and Management},
  editor = {Perret and  F.-L. and Jaffeux and  C.},
  publisher = {EPFL Press},
  pages = {281--324}}}

Schoenfelder S., Axhausen K., Antille N., Bierlaire M. (2002) Exploring the potentials of automatically collected GPS data for travel behaviour analysis - a Swedish data source. In Möltgen, J. and Wytzisk, A. (ed) GI-Technologien für Verkehr und Logistik, Institut f�r Geoinformatik, Universit�t M�nster


@InProceedings{SchoAxhaAntiBier02,
  author = {Stefan Schoenfelder and Kay Axhausen and Nicolas Antille and Michel Bierlaire},
  title = {Exploring the potentials of automatically collected GPS data for  travel behaviour analysis - a Swedish data source},
  year = {2002},
  booktile = {GI-Technologien f\"ur Verkehr und Logistik},
  editor = {M\"oltgen and  J. and Wytzisk and  A.},
  number = {13},
  series = {IfGIprints},
  publisher = {Institut f\"ur Geoinformatik, Universit\"at M\"unster},
  pages = {155--179}}}

1999

Ben-Akiva M., Bierlaire M. (1999) Discrete choice methods and their applications to short-term travel decisions. In Hall, R. (ed) Handbook of Transportation Science, Kluwer [ISBN 0-7923-8587-X]


@InProceedings{BenABier99,
  author = {Moshe Ben-Akiva and Michel Bierlaire},
  title = {Discrete choice methods and their applications to short-term travel decisions},
  year = {1999},
  booktile = {Handbook of Transportation Science},
  editor = {Hall and  R.},
  series = {Operations Research and Management Science},
  publisher = {Kluwer},
  pages = {5-34}}}

Bottom J., Ben-Akiva M., Bierlaire M., Chabini I., Koutsopoulos H., Yang Q. (1999) Investigation of route guidance generation issues by simulation with DynaMIT. In Ceder, A. (ed) Transportation and Traffic Theory. Proceedings of the 14th International Symposium on Transportation and Traffic Theory, Pergamon [ISBN 0 08 043448 7]


@InProceedings{BottBenABierChabKoutYang99,
  author = {Jon Bottom and Moshe Ben-Akiva and Michel Bierlaire and Ismail Chabini and Haris Koutsopoulos and Qi Yang},
  title = {Investigation of route guidance generation issues by simulation with DynaMIT},
  year = {1999},
  booktile = {Transportation and Traffic Theory. Proceedings of the 14th International Symposium on Transportation and Traffic Theory},
  editor = {Ceder and  A.},
  publisher = {Pergamon},
  pages = {577-600}}}

1998

Bierlaire M. (1998) Discrete choice models. In Labbé, M., Laporte, G., Tanczos, K. and Toint, Ph. (ed) Operations Research and Decision Aid Methodologies in Traffic and Transportation Management, Springer Verlag [ISBN 3540646523]


@InProceedings{Bier98,
  author = {Michel Bierlaire},
  title = {Discrete choice models},
  year = {1998},
  booktile = {Operations Research and Decision Aid Methodologies in Traffic and Transportation Management},
  editor = {Labb\'e and  M. and  Laporte and  G. and  Tanczos and  K. and Toint and  Ph.},
  volume = {166},
  series = {NATO ASI Series, Computer and Systems Sciences},
  publisher = {Springer Verlag},
  pages = {203-227}}}

Technical reports [200]

2024

Ortelli N., de Lapparent M., Varotto S., Bierlaire M. (2024). An integrated ordered logit and latent variable model for accident injury severity and risk-taking behavior. Report TRANSP-OR 240101


@TechReport{OrteLappVaroBier2024,
  author = {Nicola Ortelli and Matthieu {de Lapparent} and Silvia Varotto and Michel Bierlaire},
  title = {An integrated ordered logit and latent variable model for accident injury severity and risk-taking behavior},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2024},
  type = {Technical Report},
  number = {TRANSP-OR 240101},
  address = {Lausanne, Switzerland}}}

Ricard L., Bierlaire M. (2024). 50 years of behavioral models for transportation and logistics. Report TRANSP-OR 220408


@TechReport{RicaBier24,
  author = {L\'ea Ricard and Michel Bierlaire},
  title = {50 years of behavioral models for transportation and logistics},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2024},
  type = {Technical Report},
  number = {TRANSP-OR 220408},
  address = {Lausanne, Switzerland}}}

2023

Bierlaire M., Paschalidis E. (2023). Estimating MEV models with samples of alternatives. Report TRANSP-OR 231225


@TechReport{BierPasc24,
  author = {Michel Bierlaire and Evangelos Paschalidis},
  title = {Estimating MEV models with samples of alternatives},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 231225},
  address = {Lausanne, Switzerland}}}

Haering T., Legault R., Torres F., Ljubic I., Bierlaire M. (2023). Exact Algorithms for Continuous Pricing with Advanced Discrete Choice Demand Models. Report TRANSP-OR 231211


@TechReport{HaerLegaTorrLjubBier2023,
  author = {Tom Haering and Robin Legault and {Fabian Alejandro} Torres and Ivana Ljubic and Michel Bierlaire},
  title = {Exact Algorithms for Continuous Pricing with Advanced Discrete Choice Demand Models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 231211},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2023). A short introduction to Biogeme. Report TRANSP-OR 230620


@TechReport{Bier23,
  author = {Michel Bierlaire},
  title = {A short introduction to Biogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 230620},
  address = {Lausanne, Switzerland}}}

Kukic M., Li X., Bierlaire M. (2023). Divide-and-conquer one-step simulator for the generation of synthetic households. Report TRANSP-OR 230408


@TechReport{KukicLiBierlaire2023,
  author = {Marija Kukic and Xinling Li and Michel Bierlaire},
  title = {Divide-and-conquer one-step simulator for the generation of synthetic households},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 230408},
  address = {Lausanne, Switzerland}}}

Ortelli N., de Lapparent M., Bierlaire M. (2023). Resampling estimation of discrete choice models. Report TRANSP-OR 230330


@TechReport{OrteLappBier2023,
  author = {Nicola Ortelli and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Resampling estimation of discrete choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 230330},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Ortelli N. (2023). Assisted specification with Biogeme 3.2.12. Report TRANSP-OR 230816


@TechReport{BierOrte23,
  author = {Michel Bierlaire and Nicola Ortelli},
  title = {Assisted specification with Biogeme 3.2.12},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 230816},
  address = {Lausanne, Switzerland}}}

Cortes Balcells C., Krueger R., Bierlaire M. (2023). Multi-objective Optimization of Activity-Travel Policies for Epidemic Control: Balancing Health and Economic Outcomes on Socio-Economic Segments. Report TRANSP-OR 221007


@TechReport{CortKrueBier23,
  author = {Cloe {Cortes Balcells} and Rico Krueger and Michel Bierlaire},
  title = {Multi-objective Optimization of Activity-Travel Policies for Epidemic Control: Balancing Health and Economic Outcomes on Socio-Economic Segments},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  number = {TRANSP-OR 221007},
  address = {Lausanne, Switzerland}}}

Rezvany N., Bierlaire M., Hillel T. (2023). Simulating intra-household interactions for in- and out-of-home activity scheduling. Report


@TechReport{RezHilBie2023,
  author = {Negar Rezvany and Michel Bierlaire and Tim Hillel},
  title = {Simulating intra-household interactions for in- and out-of-home

activity scheduling},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2023},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2022

Pougala J., Hillel T., Bierlaire M. (2022). OASIS: Optimisation-based Activity Scheduling with Integrated Simultaneous choice dimensions. Report TRANSP-OR 221124


@TechReport{PougHillBier22,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {OASIS: Optimisation-based Activity Scheduling

with Integrated Simultaneous choice dimensions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2022},
  type = {Technical Report},
  number = {TRANSP-OR 221124},
  address = {Lausanne, Switzerland}}}

Bataillard L., Pougala J., Haering T., Bierlaire M. (2022). A comparative analysis of optimization algorithms for activity-based applications. Report TRANSP-OR 220610


@TechReport{BataPougHaerBier22,
  author = {Luca Bataillard and Janody Pougala and Tom Haering and Michel Bierlaire},
  title = {A comparative analysis of optimization algorithms for activity-based applications},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2022},
  type = {Technical Report},
  number = {TRANSP-OR 220610},
  address = {Lausanne, Switzerland}}}

Varotto S., Krueger R., Bierlaire M. (2022). Modelling travel behaviour: A choice modelling perspective. Report TRANSP-OR 220315


@TechReport{VaroKrueBier22,
  author = {Silvia Varotto and Rico Krueger and Michel Bierlaire},
  title = {Modelling travel behaviour: A choice modelling

perspective},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2022},
  type = {Technical Report},
  number = {TRANSP-OR 220315},
  address = {Lausanne, Switzerland}}}

Cortes Balcells C., Krueger R., Bierlaire M. (2022). Disaggregate modeling and policy optimization for the Swiss SARS-CoV-2 outbreak. Report TRANSP-OR 221007


@TechReport{CortKrueBier22,
  author = {Cloe {Cortes Balcells} and Rico Krueger and Michel Bierlaire},
  title = {Disaggregate modeling and policy optimization for the Swiss SARS-CoV-2 outbreak},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2022},
  type = {Technical Report},
  number = {TRANSP-OR 221007},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Ortelli N. (2022). Assisted specification with Biogeme. Report TRANSP-OR 220707


@TechReport{BierOrte22,
  author = {Michel Bierlaire and Nicola Ortelli},
  title = {Assisted specification with Biogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2022},
  type = {Technical Report},
  number = {TRANSP-OR 220707},
  address = {Lausanne, Switzerland}}}

2021

Manser P., Haering T., Hillel T., Pougala J., Krueger R., Bierlaire M. (2021). Resolving temporal scheduling conflicts in activity-based modelling. Report TRANSP-OR 211209


@TechReport{ManserEtAl2021,
  author = {Patrick Manser and Tom Haering and Tim Hillel and Janody Pougala and Rico Krueger and Michel Bierlaire},
  title = {Resolving temporal scheduling conflicts in activity-based modelling},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 211209},
  address = {Lausanne, Switzerland}}}

Pacheco M., Gendron B., Sharif Azadeh S., Bierlaire M. (2021). A Lagrangian decomposition scheme for choice-based optimization. Report TRANSP-OR 210827


@TechReport{PachGendSharBier21,
  author = {Meritxell Pacheco and Bernard Gendron and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {A Lagrangian decomposition scheme for choice-based optimization},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210827},
  address = {Lausanne, Switzerland}}}


@TechReport{KrueBierDaziRashBans21,
  author = {Rico Krueger and Michel Bierlaire and Ricardo Daziano and Taha Rashidi and Prateek Bansal},
  title = {Evaluating the predictive abilities of mixed logit models with unobserved inter- and intra-individual heterogeneity},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210617},
  address = {Lausanne, Switzerland}}}

Molyneaux N., Bierlaire M. (2021). Analysis and modelling of intra-hub pedestrian dynamics. Report TRANSP-OR 210526


@TechReport{MolyBierTF21,
  author = {Nicholas Molyneaux and Michel Bierlaire},
  title = {Analysis and modelling of intra-hub pedestrian dynamics},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210526},
  address = {Lausanne, Switzerland}}}

Krueger R., Bierlaire M., Gasos T., Bansal P. (2021). Robust discrete choice models with t-distributed kernel errors. Report TRANSP-OR 210518


@TechReport{KrueBierGasoBans21,
  author = {Rico Krueger and Michel Bierlaire and Thomas Gasos and Prateek Bansal},
  title = {Robust discrete choice models with t-distributed kernel errors},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210518},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Frejinger E., Hillel T. (2021). Dynamic choice models. Report TRANSP-OR 210305


@TechReport{BierFrejHill21,
  author = {Michel Bierlaire and Emma Frejinger and Tim Hillel},
  title = {Dynamic choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210305},
  address = {Lausanne, Switzerland}}}

Molyneaux N., Bierlaire M. (2021). Controlling pedestrian flows with moving walkways. Report TRANSP-OR 210218


@TechReport{MolyBier21,
  author = {Nicholas Molyneaux and Michel Bierlaire},
  title = {Controlling pedestrian flows with moving walkways},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210218},
  address = {Lausanne, Switzerland}}}

Beine M., Bierlaire M., Docquier F. (2021). New York, Abu Dhabi, London or Stay at Home? Using a Cross-Nested Logit Model to Identify Complex Substitution Patterns in Migration. Report TRANSP-OR 210130


@TechReport{BeinBierDocq21,
  author = {Michel Beine and Michel Bierlaire and Fr\'ed\'eric Docquier},
  title = {New York, Abu Dhabi, London or Stay at Home? Using a Cross-Nested Logit Model to Identify Complex Substitution Patterns in Migration},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210130},
  address = {Lausanne, Switzerland}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2021). Price-based regulation of oligopolistic markets under discrete choice models of demand. Report TRANSP-OR 210127


@TechReport{BorLurBie2021,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {Price-based regulation of oligopolistic markets under discrete choice models of demand},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210127},
  address = {Lausanne, Switzerland}}}

Pougala J., Hillel T., Bierlaire M. (2021). Capturing trade-offs between daily scheduling choices. Report TRANSP-OR 210101


@TechReport{PougHillBier21,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Capturing trade-offs between daily scheduling choices},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  number = {TRANSP-OR 210101},
  address = {Lausanne, Switzerland}}}

Rezvany N., Hillel T., Bierlaire M. (2021). Integrated models of transport and energy demand: A literature review and framework. Report


@TechReport{RezHilBie2021,
  author = {Negar Rezvany and Tim Hillel and Michel Bierlaire},
  title = {Integrated models of transport and energy demand: A literature review and framework},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2021},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2020

Bierlaire M., Krueger R. (2020). Sampling and discrete choice. Report TRANSP-OR 201109


@TechReport{BierKrue20,
  author = {Michel Bierlaire and Rico Krueger},
  title = {Sampling and discrete choice},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2020},
  type = {Technical Report},
  number = {TRANSP-OR 201109},
  address = {Lausanne, Switzerland}}}

Ortelli N., Hillel T., Pereira F., de Lapparent M., Bierlaire M. (2020). Assisted Specification of Discrete Choice Models. Report TRANSP-OR 200708


@TechReport{OrtHilPerLapBie2020,
  author = {Nicola Ortelli and Tim Hillel and Francisco Pereira and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Assisted Specification of Discrete Choice Models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2020},
  type = {Technical Report},
  number = {TRANSP-OR 200708},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2020). A short introduction to PandasBiogeme. Report TRANSP-OR 200605


@TechReport{Bier20,
  author = {Michel Bierlaire},
  title = {A short introduction to PandasBiogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2020},
  type = {Technical Report},
  number = {TRANSP-OR 200605},
  address = {Lausanne, Switzerland}}}

Krueger R., Bansal P., Bierlaire M., Daziano R., Rashidi T. (2020). Variational bayesian inference for mixed logit models with unobserved inter-and intra-individual heterogeneity. Report arXiv:1905.00419


@TechReport{KrueBansBierDaziRash20,
  author = {Rico Krueger and Prateek Bansal and Michel Bierlaire and Ricardo Daziano and Taha Rashidi},
  title = {Variational bayesian inference for mixed logit models with unobserved inter-and intra-individual heterogeneity},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2020},
  type = {Technical Report},
  number = {arXiv:1905.00419},
  address = {Lausanne, Switzerland}}}

2019

Bierlaire M. (2019). Monte-Carlo integration with PandasBiogeme. Report TRANSP-OR 191231


@TechReport{Bier19,
  author = {Michel Bierlaire},
  title = {Monte-Carlo integration with PandasBiogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {TRANSP-OR 191231},
  address = {Lausanne, Switzerland}}}

Lederrey G., Lurkin V., Hillel T., Bierlaire M. (2019). Estimation of Discrete Choice Models with Hybrid Stochastic Adaptive Batch Size Algorithms. Report TRANSP-OR 191213


@TechReport{LedLurHilBie19,
  author = {Gael Lederrey and Virginie Lurkin and Tim Hillel and Michel Bierlaire},
  title = {Estimation of Discrete Choice Models with Hybrid Stochastic Adaptive Batch Size Algorithms},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {TRANSP-OR 191213},
  address = {Lausanne, Switzerland}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2019). A disaggregate choice-based approach to find epsilon-equilibria of oligopolistic markets. Report TRANSP-OR 191107


@TechReport{BorLurBie2019,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {A disaggregate choice-based approach to find epsilon-equilibria of oligopolistic markets},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {TRANSP-OR 191107},
  address = {Lausanne, Switzerland}}}

Molyneaux N., Scarinci R., Bierlaire M. (2019). Design and analysis of control strategies for pedestrian flows. Report TRANSP-OR 191031


@TechReport{MolyScarBier19,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Design and analysis of control strategies for pedestrian flows},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {TRANSP-OR 191031},
  address = {Lausanne, Switzerland}}}

Mueller F., Guerster M., Obrenovic N., Bierlaire M. (2019). Can regional railway become emission-free with recently announced vehicles? - A case study of Bavaria. Report TRANSP-OR 191028


@TechReport{MuelGuerObreBier19,
  author = {Florian Mueller and Markus Guerster and Nikola Obrenovic and Michel Bierlaire},
  title = {Can regional railway become emission-free with recently announced vehicles? - A case study of Bavaria},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {TRANSP-OR 191028},
  address = {Lausanne, Switzerland}}}

Hillel T., Bierlaire M., Jin Y. (2019). A systematic review of machine learning methodologies for modelling passenger mode choice. Report TRANSP-OR 191025


@TechReport{HillelBierlaireJinReview2019,
  author = {Tim Hillel and Michel Bierlaire and Ying Jin},
  title = {A systematic review of machine learning methodologies for modelling passenger mode choice},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {TRANSP-OR 191025},
  address = {Lausanne, Switzerland}}}

Bansal P., Krueger R., Bierlaire M., Daziano R., Rashidi T. (2019). Bayesian estimation of mixed multinomial logit models: Advances and simulation-based evaluations.. Report arXiv:1904.03647


@TechReport{BansKrueBierDaziRash19,
  author = {Prateek Bansal and Rico Krueger and Michel Bierlaire and Ricardo Daziano and Taha Rashidi},
  title = {Bayesian estimation of mixed multinomial

logit models: Advances and simulation-based evaluations.},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2019},
  type = {Technical Report},
  number = {arXiv:1904.03647},
  address = {Lausanne, Switzerland}}}

2018

Bierlaire M. (2018). Estimating choice models with latent variables with PandasBiogeme. Report TRANSP-OR 181227


@TechReport{Bier18b,
  author = {Michel Bierlaire},
  title = {Estimating choice models with latent variables with PandasBiogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2018},
  type = {Technical Report},
  number = {TRANSP-OR 181227},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2018). Calculating indicators with PandasBiogeme. Report TRANSP-OR 181223


@TechReport{Bier18a,
  author = {Michel Bierlaire},
  title = {Calculating indicators with PandasBiogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2018},
  type = {Technical Report},
  number = {TRANSP-OR 181223},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2018). PandasBiogeme: a short introduction. Report TRANSP-OR 181219


@TechReport{Bier18,
  author = {Michel Bierlaire},
  title = {PandasBiogeme: a short introduction},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2018},
  type = {Technical Report},
  number = {TRANSP-OR 181219},
  address = {Lausanne, Switzerland}}}

Scarinci R., Zanarini A., Bierlaire M. (2018). Electrification of urban mobility: the case of catenary-free buses. Report TRANSP-OR 181030


@TechReport{ScaZanBie_myTOSA_2018,
  author = {Riccardo Scarinci and Alessandro Zanarini and Michel Bierlaire},
  title = {Electrification of urban mobility: the case of catenary-free buses},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2018},
  type = {Technical Report},
  number = {TRANSP-OR 181030},
  address = {Lausanne, Switzerland}}}

Xia J., Dai W., Polak J., Bierlaire M. (2018). Dimension reduction for origin-destination flow estimation: blind estimation made possible. Report 1810.06077


@TechReport{XiaDaiPolaBier18,
  author = {Jingyuan Xia and Wei Dai and John Polak and Michel Bierlaire},
  title = {Dimension reduction for origin-destination flow estimation: blind estimation made possible},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2018},
  type = {Technical Report},
  number = {1810.06077},
  address = {Lausanne, Switzerland}}}

2017

Markov I., Bierlaire M., Cordeau J., Maknoon Y., Varone S. (2017). A unified framework for rich routing problems with stochastic demands. Report TRANSP-OR 171025


@TechReport{Markov_TechreportUnified,
  author = {Iliya Markov and Michel Bierlaire and Jean-Fran\c{c}ois Cordeau and Yousef Maknoon and Sacha Varone},
  title = {A unified framework for rich routing problems with stochastic demands},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 171025},
  address = {Lausanne, Switzerland}}}

Pacheco M., Sharif Azadeh S., Bierlaire M., Gendron B. (2017). Integrating advanced discrete choice models in mixed integer linear optimization. Report TRANSP-OR 170714


@TechReport{PacShaBieGen2017,
  author = {Meritxell Pacheco and Shadi {Sharif Azadeh} and Michel Bierlaire and Bernard Gendron},
  title = {Integrating advanced discrete choice models in mixed integer linear optimization},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 170714},
  address = {Lausanne, Switzerland}}}

Kazagli E., Bierlaire M., de Lapparent M. (2017). Operational route choice methodologies for practical applications. Report TRANSP-OR 170526


@TechReport{KazBierDeLap2017,
  author = {Evanthia Kazagli and Michel Bierlaire and Matthieu {de Lapparent}},
  title = {Operational route choice methodologies for practical applications},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 170526},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Lurkin V. (2017). Introduction to disaggregate demand models. Report TRANSP-OR 170508


@TechReport{BieLur2017,
  author = {Michel Bierlaire and Virginie Lurkin},
  title = {Introduction to disaggregate demand models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 170508},
  address = {Lausanne, Switzerland}}}

Binder S., Maknoon Y., Bierlaire M. (2017). Introducing exogenous priority rules for the capacitated passenger assignment problem. Report TRANSP-OR 170209


@TechReport{BinMakBier2017,
  author = {Stefan Binder and Yousef Maknoon and Michel Bierlaire},
  title = {Introducing exogenous priority rules for the capacitated passenger assignment problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 170209},
  address = {Lausanne, Switzerland}}}

Scarinci R., Markov I., Bierlaire M. (2017). Network design of a transport system based on accelerating moving walkways. Report TRANSP-OR 170123


@TechReport{ScaMarBie_AMWopt_2017,
  author = {Riccardo Scarinci and Iliya Markov and Michel Bierlaire},
  title = {Network design of a transport system based on accelerating moving walkways},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 170123},
  address = {Lausanne, Switzerland}}}

Nikolic M., Bierlaire M., de Lapparent M., Scarinci R. (2017). Multi-class speed-density relationship for pedestrian traffic. Report TRANSP-OR 170115


@TechReport{NikBieLapSca_MCVK_2017,
  author = {Marija Nikolic and Michel Bierlaire and Matthieu {de Lapparent} and Riccardo Scarinci},
  title = {Multi-class speed-density relationship for pedestrian traffic},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2017},
  type = {Technical Report},
  number = {TRANSP-OR 170115},
  address = {Lausanne, Switzerland}}}

2016

Fernandez-Antolin A., de Lapparent M., Bierlaire M. (2016). Modeling purchases of new cars: an analysis of the 2014 French market. Report TRANSP-OR 161130


@TechReport{FerLapBie16,
  author = {Anna Fernandez-Antolin and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Modeling purchases of new cars: an analysis of the 2014 French market},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 161130},
  address = {Lausanne, Switzerland}}}

Robenek T., Sharif Azadeh S., Maknoon Y., de Lapparent M., Bierlaire M. (2016). Train Timetable Design Under Elastic Passenger Demand. Report TRANSP-OR 160923


@TechReport{RobAzaMakLapBier16,
  author = {Tom\'a\v{s} Robenek and Shadi {Sharif Azadeh} and Yousef Maknoon and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Train Timetable Design Under Elastic Passenger Demand},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160923},
  address = {Lausanne, Switzerland}}}

Markov I., Bierlaire M., Cordeau J., Maknoon Y., Varone S. (2016). Inventory routing with non-stationary stochastic demands. Report TRANSP-OR 160825


@TechReport{Markov_TechreportWP5,
  author = {Iliya Markov and Michel Bierlaire and Jean-Fran\c{c}ois Cordeau and Yousef Maknoon and Sacha Varone},
  title = {Inventory routing with non-stationary stochastic demands},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160825},
  address = {Lausanne, Switzerland}}}

Nikolic M., Bierlaire M. (2016). Data-driven characterization of pedestrian flows. Report TRANSP-OR 160815


@TechReport{NikBie_3DVoronoi_2016,
  author = {Marija Nikolic and Michel Bierlaire},
  title = {Data-driven characterization of pedestrian flows},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160815},
  address = {Lausanne, Switzerland}}}

Scarinci R., Bahrami F., Ourednik A., Bierlaire M. (2016). An exploration of moving walkways as a transport system in urban centers. Report TRANSP-OR 160810


@TechReport{ScaBahOurBie_AMWpolicy_2016,
  author = {Riccardo Scarinci and Farzaneh Bahrami and Andr\'e Ourednik and Michel Bierlaire},
  title = {An exploration of moving walkways as a transport system in urban centers},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160810},
  address = {Lausanne, Switzerland}}}

Maknoon Y., Bierlaire M. (2016). A passenger-centric approach to enhance railway services. Report TRANSP-OR 160805


@TechReport{MakBI,
  author = {Yousef Maknoon and Michel Bierlaire},
  title = {A passenger-centric approach to enhance

railway services},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160805},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2016). PythonBiogeme: a short introduction. Report TRANSP-OR 160706


@TechReport{Bier16a,
  author = {Michel Bierlaire},
  title = {PythonBiogeme: a short introduction},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160706},
  address = {Lausanne, Switzerland}}}

Binder S., Maknoon Y., Bierlaire M. (2016). The multi-objective railway timetable rescheduling problem. Report TRANSP-OR 160530


@TechReport{BinMakBier2016,
  author = {Stefan Binder and Yousef Maknoon and Michel Bierlaire},
  title = {The multi-objective railway timetable rescheduling problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160530},
  address = {Lausanne, Switzerland}}}

Robenek T., Sharif Azadeh S., Maknoon Y., Bierlaire M. (2016). Hybrid Cyclicity: Combining The Benefits Of Cyclic And Non-Cyclic Timetables. Report TRANSP-OR 160510


@TechReport{RobeAzaMakBier16,
  author = {Tom\'a\v{s} Robenek and Shadi {Sharif Azadeh} and Yousef Maknoon and Michel Bierlaire},
  title = {Hybrid Cyclicity: Combining The Benefits Of Cyclic And Non-Cyclic Timetables},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160510},
  address = {Lausanne, Switzerland}}}

Fernandez-Antolin A., Guevara-Cue A., de Lapparent M., Bierlaire M. (2016). Correcting for endogeneity using the multiple indicator solution. Report TRANSP-OR 160405


@TechReport{FerGueLapBie16,
  author = {Anna Fernandez-Antolin and Angelo Guevara-Cue and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Correcting for endogeneity using the multiple indicator solution},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160405},
  address = {Lausanne, Switzerland}}}

Scarinci R., Rast F., Bierlaire M. (2016). Evaluation of the energy consumption in different mobility scenarios to meet the goal of a 2000-watt society. Report TRANSP-OR 130916


@TechReport{ScaRasBie_SolarDecathlon_2016,
  author = {Riccardo Scarinci and Frederic Rast and Michel Bierlaire},
  title = {Evaluation of the energy consumption in different mobility scenarios to meet the goal of a 2000-watt society},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 130916},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Sharif Azadeh S. (2016). Demand-based discrete optimization. Report TRANSP-OR 160209


@TechReport{BierShar16,
  author = {Michel Bierlaire and Shadi {Sharif Azadeh}},
  title = {Demand-based discrete optimization},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2016},
  type = {Technical Report},
  number = {TRANSP-OR 160209},
  address = {Lausanne, Switzerland}}}

2015

Danalet A., Tinguely L., de Lapparent M., Bierlaire M. (2015). Location choice with longitudinal WiFi data. Report TRANSP-OR 151110


@TechReport{DaTideLaBi15,
  author = {Antonin Danalet and Lo{\"\i}c Tinguely and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Location choice with longitudinal WiFi data},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 151110},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2015). BisonBiogeme: syntax of the modeling language. Report TRANSP-OR 151102


@TechReport{Bier15b,
  author = {Michel Bierlaire},
  title = {BisonBiogeme: syntax of the modeling language},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 151102},
  address = {Lausanne, Switzerland}}}

Hänseler F., Lam W., Bierlaire M., Lederrey G., Nikolic M. (2015). A dynamic network loading model for anisotropic and congested pedestrian flows. Report TRANSP-OR 151026


@TechReport{HaLaBiLeNi_2015,
  author = {Flurin H\"anseler and William Lam and Michel Bierlaire and Gael Lederrey and Marija Nikolic},
  title = {A dynamic network loading model for anisotropic and congested pedestrian flows},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 151026},
  address = {Lausanne, Switzerland}}}

Hänseler F., Bierlaire M., Scarinci R. (2015). Assessing the usage and level-of-service of pedestrian facilities in train stations: A Swiss case study. Report TRANSP-OR 151008


@TechReport{HaBiSc_2015,
  author = {Flurin H\"anseler and Michel Bierlaire and Riccardo Scarinci},
  title = {Assessing the usage and level-of-service of pedestrian facilities in train stations: A Swiss case study},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 151008},
  address = {Lausanne, Switzerland}}}

Robenek T., Maknoon Y., Sharif Azadeh S., Chen J., Bierlaire M. (2015). Passenger Centric Train Timetabling Problem. Report TRANSP-OR 150917


@TechReport{RobMakAzaChenBier15,
  author = {Tom\'a\v{s} Robenek and Yousef Maknoon and Shadi {Sharif Azadeh} and {Jiang Hang} Chen and Michel Bierlaire},
  title = {Passenger Centric Train Timetabling Problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150917},
  address = {Lausanne, Switzerland}}}

Maknoon Y., Sharif Azadeh S., Bierlaire M. (2015). Trajectory planning for small aircrafts. Report TRANSP-OR 150901


@TechReport{MakShaBi,
  author = {Yousef Maknoon and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {Trajectory planning for small aircrafts},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150901},
  address = {Lausanne, Switzerland}}}

Kazagli E., Bierlaire M., Flötteröd G. (2015). Revisiting the Route Choice Problem: A Modeling Framework Based on Mental Representations. Report TRANSP-OR 150824


@TechReport{KazBierFloe_2015,
  author = {Evanthia Kazagli and Michel Bierlaire and Gunnar Fl\"otter\"od},
  title = {Revisiting the Route Choice Problem: A Modeling Framework Based on Mental Representations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150824},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2015). BisonBiogeme: estimating a first model. Report TRANSP-OR 150720


@TechReport{Bier15a,
  author = {Michel Bierlaire},
  title = {BisonBiogeme: estimating a first model},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150720},
  address = {Lausanne, Switzerland}}}

Hänseler F., Molyneaux N., Bierlaire M. (2015). Estimation of pedestrian origin-destination demand in train stations. Report TRANSP-OR 150703


@TechReport{HaMoBi_PedDemEstRevised2015,
  author = {Flurin H\"anseler and Nicholas Molyneaux and Michel Bierlaire},
  title = {Estimation of pedestrian origin-destination demand in train stations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150703},
  address = {Lausanne, Switzerland}}}

Nikolic M., Bierlaire M., Farooq B. (2015). Probabilistic speed-density relationship for pedestrian traffic: a data-driven approach. Report TRANSP-OR 150411


@TechReport{NikBieFar_PedMixFD_2015,
  author = {Marija Nikolic and Michel Bierlaire and Bilal Farooq},
  title = {Probabilistic speed-density relationship for pedestrian traffic: a data-driven approach},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150411},
  address = {Lausanne, Switzerland}}}

Markov I., Varone S., Bierlaire M. (2015). The waste collection VRP with intermediate facilities, a heterogeneous fixed fleet and a flexible assignment of origin and destination depot. Report TRANSP-OR 150212


@TechReport{MarVarBier2015,
  author = {Iliya Markov and Sacha Varone and Michel Bierlaire},
  title = {The waste collection VRP with intermediate facilities, a heterogeneous fixed fleet and a flexible assignment of origin and destination depot},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150212},
  address = {Lausanne, Switzerland}}}

Hänseler F., Molyneaux N., Bierlaire M. (2015). Schedule-based estimation of pedestrian origin-destination demand in railway stations. Report TRANSP-OR 150108


@TechReport{HaMoBi_PedDemEst2015,
  author = {Flurin H\"anseler and Nicholas Molyneaux and Michel Bierlaire},
  title = {Schedule-based estimation of pedestrian origin-destination demand in railway stations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150108},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2015). Monte-Carlo integration with PythonBiogeme. Report TRANSP-OR 150806


@TechReport{Bier15,
  author = {Michel Bierlaire},
  title = {Monte-Carlo integration with PythonBiogeme},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2015},
  type = {Technical Report},
  number = {TRANSP-OR 150806},
  address = {Lausanne, Switzerland}}}

2014

Moret S., Bierlaire M., Maréchal F. (2014). Robust Optimization for Strategic Energy Planning. Report TRANSP-OR 141115


@TechReport{MoreBierMare14,
  author = {Stefano Moret and Michel Bierlaire and Fran\c{c}ois Mar\'echal},
  title = {Robust Optimization for Strategic Energy Planning},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2014},
  type = {Technical Report},
  number = {TRANSP-OR 141115},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2014). Simulation and optimization in transportation: a short review. Report TRANSP-OR 141113


@TechReport{Bier14,
  author = {Michel Bierlaire},
  title = {Simulation and optimization in transportation: a short review},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2014},
  type = {Technical Report},
  number = {TRANSP-OR 141113},
  address = {Lausanne, Switzerland}}}

Glerum A., Bierlaire M. (2014). Capturing response behavior heterogeneity in the quantification of semi-open questions: a mixed discrete-continuous approach. Report TRANSP-OR 140305


@TechReport{GleBie_2014,
  author = {Aur\'elie Glerum and Michel Bierlaire},
  title = {Capturing response behavior heterogeneity in the quantification of semi-open questions: a mixed discrete-continuous approach},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2014},
  type = {Technical Report},
  number = {TRANSP-OR 140305},
  address = {Lausanne, Switzerland}}}

Lai X., Bierlaire M. (2014). Specification of the cross nested logit model with sampling of alternatives for route choice models. Report TRANSP-OR 140602


@TechReport{LaiBier14,
  author = {Xinjun Lai and Michel Bierlaire},
  title = {Specification of the cross nested logit model with sampling of alternatives for route choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2014},
  type = {Technical Report},
  number = {TRANSP-OR 140602},
  address = {Lausanne, Switzerland}}}

2013

Hänseler F., Bierlaire M., Farooq B., Mühlematter T. (2013). An aggregate model for transient and multi-directional pedestrian flows in public walking areas. Report TRANSP-OR 131219


@TechReport{PedCTM_2013,
  author = {Flurin H\"anseler and Michel Bierlaire and Bilal Farooq and Thomas M\"uhlematter},
  title = {An aggregate model for transient and multi-directional pedestrian flows in public walking areas},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 131219},
  address = {Lausanne, Switzerland}}}

Umang N., Erera A., Bierlaire M. (2013). The robust single machine scheduling problem with uncertain release and processing times. Report TRANSP-OR 131029


@TechReport{NitEraBier2013,
  author = {Nitish Umang and Alan Erera and Michel Bierlaire},
  title = {The robust single machine scheduling problem with uncertain release and processing times},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 131029},
  address = {Lausanne, Switzerland}}}

Danalet A., Farooq B., Bierlaire M. (2013). A Bayesian Approach to Detect Pedestrian Destination-Sequences from WiFi Signatures. Report TRANSP-OR 131002


@TechReport{Danaletetal_WiFi,
  author = {Antonin Danalet and Bilal Farooq and Michel Bierlaire},
  title = {A Bayesian Approach to Detect Pedestrian Destination-Sequences from WiFi Signatures},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 131002},
  address = {Lausanne, Switzerland}}}

Hänseler F., Molyneaux N., Thémans M., Bierlaire M. (2013). Pedestrian strategies within railway stations: Analysis and modeling of pedestrian flows (PedFlux Mid-Term Report). Report TRANSP-OR 130920


@TechReport{PedFluxMidTerm,
  author = {Flurin H\"anseler and Nicholas Molyneaux and Micha\"el Th\'emans and Michel Bierlaire},
  title = {Pedestrian strategies within railway stations: Analysis and modeling of pedestrian flows (PedFlux Mid-Term Report)},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 130920},
  address = {Lausanne, Switzerland}}}

Hurtubia R., Nguyen M., Glerum A., Bierlaire M. (2013). Integrating psychometric indicators in latent class choice models. Report TRANSP-OR 130423


@TechReport{HuNgGlBi_2013,
  author = {Ricardo Hurtubia and {My Hang} Nguyen and Aur\'elie Glerum and Michel Bierlaire},
  title = {Integrating psychometric indicators in latent class choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 130423},
  address = {Lausanne, Switzerland}}}

Atasoy B., Salani M., Bierlaire M. (2013). A local search heuristic for a mixed integer nonlinear integrated airline schedule planning problem. Report TRANSP-OR 130402


@TechReport{AtaSalBier_2013,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {A local search heuristic for a mixed integer nonlinear integrated airline schedule planning problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 130402},
  address = {Lausanne, Switzerland}}}

Umang N., Bierlaire M., Erera A. (2013). Real-time management of berth allocation with stochastic arrival and handling times. Report TRANSP-OR 130215


@TechReport{NitBierEra2013,
  author = {Nitish Umang and Michel Bierlaire and Alan Erera},
  title = {Real-time management of berth allocation with stochastic arrival and handling times},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 130215},
  address = {Lausanne, Switzerland}}}

Farooq B., Bierlaire M., Hurtubia R., Flötteröd G. (2013). Simulation based Synthesis of Population. Report TRANSP-OR 130125


@TechReport{FaroBierHurtFloe_PopSyn2013,
  author = {Bilal Farooq and Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {Simulation based Synthesis of Population},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2013},
  type = {Technical Report},
  number = {TRANSP-OR 130125},
  address = {Lausanne, Switzerland}}}

2012

Robenek T., Umang N., Bierlaire M., Ropke S. (2012). A branch-and-price algorithm to solve the integrated berth allocation and yard assignment problem in bulk ports. Report TRANSP-OR 121030


@TechReport{TomNitBierStef12,
  author = {Tom\'a\v{s} Robenek and Nitish Umang and Michel Bierlaire and Stefan Ropke},
  title = {A branch-and-price algorithm to solve the integrated berth allocation and yard assignment problem in bulk ports},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 121030},
  address = {Lausanne, Switzerland}}}

Hänseler F., Sahaleh S., Farooq B., Lavadinho S., Thémans M., Bierlaire M. (2012). Final report on the modeling part of the "Flux pietons Gare de Lausanne" project within the framework of "Leman 2030". Report TRANSP-OR 120801


@TechReport{LEMAN2030,
  author = {Flurin H\"anseler and Sohrab Sahaleh and Bilal Farooq and Sonia Lavadinho and Micha\"el Th\'emans and Michel Bierlaire},
  title = {Final report on the modeling part of the ''Flux pietons Gare de Lausanne'' project within the framework of ''Leman 2030''},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120801},
  address = {Lausanne, Switzerland}}}

Ythier J., Walker J., Bierlaire M. (2012). The role of the social network and the usage of communication in travel behavior measured with Smartphone data. Report TRANSP-OR 120801


@TechReport{YthiWalkBier12,
  author = {Jeanne Ythier and Joan Walker and Michel Bierlaire},
  title = {The role of the social network and the usage of communication in travel behavior measured with Smartphone data},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120801},
  address = {Lausanne, Switzerland}}}

Atasoy B., Salani M., Bierlaire M., Leonardi C. (2012). Impact analysis of a flexible air transportation system. Report TRANSP-OR 120717


@TechReport{AtaSalBierLeo_2012,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire and Claudio Leonardi},
  title = {Impact analysis of a flexible air transportation system},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120717},
  address = {Lausanne, Switzerland}}}

Chen J., Bierlaire M. (2012). Probabilistic multimodal map-matching with rich smartphone data. Report TRANSP-OR 120618


@TechReport{ChenBier12,
  author = {Jingmin Chen and Michel Bierlaire},
  title = {Probabilistic multimodal map-matching with rich smartphone data},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120618},
  address = {Lausanne, Switzerland}}}

Atasoy B., Salani M., Bierlaire M. (2012). An integrated airline scheduling, fleeting and pricing model for a monopolized market. Report TRANSP-OR 120501


@TechReport{AtaSalBier_2012,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {An integrated airline scheduling, fleeting and pricing model for a monopolized market},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120501},
  address = {Lausanne, Switzerland}}}

Atasoy B., Bierlaire M. (2012). An air itinerary choice model based on a mixed RP/SP dataset. Report TRANSP-OR 120426


@TechReport{AtaBier_2012,
  author = {Bilge Atasoy and Michel Bierlaire},
  title = {An air itinerary choice model based on a mixed RP/SP dataset},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120426},
  address = {Lausanne, Switzerland}}}

Glerum A., Atasoy B., Bierlaire M. (2012). Using semi-open questions to integrate perceptions in choice models. Report TRANSP-OR 120325


@TechReport{GleAtaBie_2012,
  author = {Aur\'elie Glerum and Bilge Atasoy and Michel Bierlaire},
  title = {Using semi-open questions to integrate perceptions in choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120325},
  address = {Lausanne, Switzerland}}}

Kumar P., Bierlaire M. (2012). Multi-Objective Airport Gate Assignment Problem in Planning and Operations. Report TRANSP-OR 120321


@TechReport{KumarBier12,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Multi-Objective Airport Gate Assignment Problem in Planning and Operations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120321},
  address = {Lausanne, Switzerland}}}

Glerum A., Stankovikj L., Thémans M., Bierlaire M. (2012). Forecasting the demand for electric vehicles: accounting for attitudes and perceptions. Report TRANSP-OR 120217


@TechReport{GleStaTheBie_2012,
  author = {Aur\'elie Glerum and Lidija Stankovikj and Micha\"el Th\'emans and Michel Bierlaire},
  title = {Forecasting the demand for electric vehicles: accounting for attitudes and perceptions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120217},
  address = {Lausanne, Switzerland}}}

Hurtubia R., Bierlaire M. (2012). Estimation of bid functions for location choice and price modeling with a latent variable approach. Report TRANSP-OR 120206


@TechReport{HurtBier2012,
  author = {Ricardo Hurtubia and Michel Bierlaire},
  title = {Estimation of bid functions for location choice and price modeling with a latent variable approach},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120206},
  address = {Lausanne, Switzerland}}}

Umang N., Bierlaire M., Vacca I. (2012). Exact and heuristic methods to solve the berth allocation problem in bulk ports. Report TRANSP-OR 120116


@TechReport{NitBierVac12,
  author = {Nitish Umang and Michel Bierlaire and Ilaria Vacca},
  title = {Exact and heuristic methods to solve the berth allocation problem in bulk ports},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2012},
  type = {Technical Report},
  number = {TRANSP-OR 120116},
  address = {Lausanne, Switzerland}}}

2011

Cruz J., Bierlaire M., Thiran J. (2011). Sample and Pixel Weighting Strategies for Robust Incremental Visual Tracking. Report TRANSP-OR 111027


@TechReport{CruzBierThir11,
  author = {Javier Cruz and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Sample and Pixel Weighting Strategies for Robust Incremental Visual Tracking},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  number = {TRANSP-OR 111027},
  address = {Lausanne, Switzerland}}}

Kumar P., Bierlaire M. (2011). Optimizing Fueling Decisions for Locomotives in Railroad Networks. Report TRANSP-OR 111006


@TechReport{KumarBier11,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Optimizing Fueling Decisions for Locomotives in Railroad Networks},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  number = {TRANSP-OR 111006},
  address = {Lausanne, Switzerland}}}

Atasoy B., Salani M., Leonardi C., Bierlaire M. (2011). Clip-Air, a flexible air transportation system. Report TRANSP-OR 110929


@TechReport{AtaSalLeoBier_2011,
  author = {Bilge Atasoy and Matteo Salani and Claudio Leonardi and Michel Bierlaire},
  title = {Clip-Air, a flexible air transportation system},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  number = {TRANSP-OR 110929},
  address = {Lausanne, Switzerland}}}

Flötteröd G., Bierlaire M. (2011). Metropolis-Hastings sampling of paths. Report TRANSP-OR 110606


@TechReport{FloeBier11,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Metropolis-Hastings sampling of paths},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  number = {TRANSP-OR 110606},
  address = {Lausanne, Switzerland}}}

Atasoy B., Glerum A., Bierlaire M. (2011). Attitudes towards mode choice in Switzerland. Report TRANSP-OR 110502


@TechReport{AtaGlerBier_2011,
  author = {Bilge Atasoy and Aur\'elie Glerum and Michel Bierlaire},
  title = {Attitudes towards mode choice in Switzerland},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  number = {TRANSP-OR 110502},
  address = {Lausanne, Switzerland}}}

Vacca I., Salani M., Bierlaire M. (2011). An exact algorithm for the integrated planning of berth allocation and quay crane assignment. Report TRANSP-OR 110323


@TechReport{VaccSalaBier2011,
  author = {Ilaria Vacca and Matteo Salani and Michel Bierlaire},
  title = {An exact algorithm for the integrated planning of berth allocation and quay crane assignment},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  number = {TRANSP-OR 110323},
  address = {Lausanne, Switzerland}}}

Robin T., Bierlaire M. (2011). Modeling the behavior of investors. Report


@TechReport{RobiBier11,
  author = {Thomas Robin and Michel Bierlaire},
  title = {Modeling the behavior of investors},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2011},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2010

Osorio C., Bierlaire M. (2010). A simulation-based optimization framework for urban traffic control. Report TRANSP-OR 101203


@TechReport{osorBier10_so,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A simulation-based optimization framework for urban traffic control},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 101203},
  address = {Lausanne, Switzerland}}}

Salani M., Vacca I., Bierlaire M. (2010). Two-stage column generation. Report TRANSP-OR 101130


@TechReport{SalaVaccBier2010,
  author = {Matteo Salani and Ilaria Vacca and Michel Bierlaire},
  title = {Two-stage column generation},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 101130},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Chen J., Newman J. (2010). Modeling Route Choice Behavior From Smartphone GPS data. Report TRANSP-OR 101016


@TechReport{BierChenNewm10,
  author = {Michel Bierlaire and Jingmin Chen and Jeffrey Newman},
  title = {Modeling Route Choice Behavior From Smartphone GPS data},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 101016},
  address = {Lausanne, Switzerland}}}

Flötteröd G., Bierlaire M. (2010). A framework for the data-consistent deployment of urban microsimulations. Report TRANSP-OR 100904


@TechReport{FloeBier10,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {A framework for the data-consistent deployment of urban microsimulations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100904},
  address = {Lausanne, Switzerland}}}

Osorio C., Flötteröd G., Bierlaire M. (2010). Dynamic network loading: a differentiable model that derives link state distributions. Report TRANSP-OR 100815


@TechReport{OsorFloeBier10,
  author = {Carolina Osorio and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Dynamic network loading: a differentiable model that derives link state distributions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100815},
  address = {Lausanne, Switzerland}}}

Fosgerau M., McFadden D., Bierlaire M. (2010). Choice probability generating functions. Report TRANSP-OR 100605


@TechReport{FosgMcFaBier10,
  author = {Mogens Fosgerau and Dan McFadden and Michel Bierlaire},
  title = {Choice probability generating functions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100605},
  address = {Lausanne, Switzerland}}}

Robin T., Bierlaire M., Cruz J. (2010). Dynamic facial expression recognition with a discrete choice model. Report TRANSP-OR 100423


@TechReport{RobiBierCruz_DynFacExpRec_10,
  author = {Thomas Robin and Michel Bierlaire and Javier Cruz},
  title = {Dynamic facial expression recognition with a discrete choice model},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100423},
  address = {Lausanne, Switzerland}}}

Osorio C., Bierlaire M. (2010). A tractable analytical model for large-scale congested protein synthesis networks. Report TRANSP-OR 100420


@TechReport{osorBier10_bioQg,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A tractable analytical model for large-scale congested protein synthesis networks},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100420},
  address = {Lausanne, Switzerland}}}

Hurtubia R., Gallay O., Bierlaire M. (2010). Attributes of Households, Locations and Real-Estate Markets for Land Use Modeling (SustainCity deliverable). Report TRANSP-OR 100419


@TechReport{sustaincity_WP2_7,
  author = {Ricardo Hurtubia and Olivier Gallay and Michel Bierlaire},
  title = {Attributes of Households, Locations and Real-Estate Markets for Land Use Modeling (SustainCity deliverable)},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100419},
  address = {Lausanne, Switzerland}}}

Eggenberg N., Salani M., Bierlaire M. (2010). Robust and Recoverable Maintenance Routing Schedules. Report TRANSP-OR 100115


@TechReport{NEMSMB_2010,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Robust and Recoverable Maintenance Routing Schedules},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100115},
  address = {Lausanne, Switzerland}}}

Flötteröd G., Bierlaire M., Nagel K. (2010). Bayesian demand calibration for dynamic traffic simulations. Report TRANSP-OR 100105


@TechReport{FloeBierNage10,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire and Kai Nagel},
  title = {Bayesian demand calibration for dynamic traffic simulations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2010},
  type = {Technical Report},
  number = {TRANSP-OR 100105},
  address = {Lausanne, Switzerland}}}

2009

Osorio C., Bierlaire M. (2009). A surrogate model for traffic optimization of congested networks: an analytic queueing network approach. Report TRANSP-OR 090825


@TechReport{osorBier09,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A surrogate model for traffic optimization of congested networks: an analytic queueing network approach},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 090825},
  address = {Lausanne, Switzerland}}}

Sorci M., Robin T., Cruz J., Bierlaire M., Thiran J. (2009). Modelling human perception of facial expressions. Report TRANSP-OR 090706


@TechReport{SorcRobiCruzBierThir09,
  author = {Matteo Sorci and Thomas Robin and Javier Cruz and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Modelling human perception of facial expressions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 090706},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Hurtubia R., Flötteröd G. (2009). An experimental analysis of the implicit choice set generation using the Constrained Multinomial Logit model. Report TRANSP-OR 090518


@TechReport{BierHurFlo09,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {An experimental analysis of the implicit choice set generation using the Constrained Multinomial Logit model},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 090518},
  address = {Lausanne, Switzerland}}}

Cruz J., Bogdanova I., Paquier B., Bierlaire M., Thiran J. (2009). Scale Invariant Feature Transform on the Sphere: Theory and Applications. Report TRANSP-OR 090426


@TechReport{CruzBogdPaquBierThir09,
  author = {Javier Cruz and Iva Bogdanova and Beno{\^\i}t Paquier and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Scale Invariant Feature Transform on the Sphere: Theory and Applications},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 090426},
  address = {Lausanne, Switzerland}}}

Alahi A., Vandergheynst P., Bierlaire M., Kunt M. (2009). A Master-Slave Approach to Detect and Match Objects Across Several Uncalibrated Moving Cameras. Report TRANSP-OR 090309


@TechReport{AlahVandBierKunt09,
  author = {Alexandre Alahi and Pierre Vandergheynst and Michel Bierlaire and Murat Kunt},
  title = {A Master-Slave Approach to Detect and Match Objects Across Several Uncalibrated Moving Cameras},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 090309},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Robin T. (2009). Pedestrians choices. Report TRANSP-OR 090303


@TechReport{BierRobi09,
  author = {Michel Bierlaire and Thomas Robin},
  title = {Pedestrians choices},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 090303},
  address = {Lausanne, Switzerland}}}

Eggenberg N., Salani M., Bierlaire M. (2009). Constraint-Specific Recovery Networks for Solving Airline Recovery Problems. Report TRANSP-OR 081001


@TechReport{EggeSalaBier08_ARP,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Constraint-Specific Recovery Networks for Solving Airline Recovery Problems},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 081001},
  address = {Lausanne, Switzerland}}}

Eggenberg N., Salani M., Bierlaire M. (2009). UFO: Uncertainty Feature Optimization, an Implicit Paradigm for Problems with Noisy Data. Report TRANSP-OR 080829


@TechReport{EggeSalaBier08_UFO,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {UFO: Uncertainty Feature Optimization, an Implicit Paradigm for Problems with Noisy Data},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2009},
  type = {Technical Report},
  number = {TRANSP-OR 080829},
  address = {Lausanne, Switzerland}}}

2008

Flötteröd G., Bierlaire M., Nagel K. (2008). Bayesian calibration of dynamic traffic simulations. Report TRANSP-OR 081028


@TechReport{FloeBierNage08,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire and Kai Nagel},
  title = {Bayesian calibration of dynamic traffic simulations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2008},
  type = {Technical Report},
  number = {TRANSP-OR 081028},
  address = {Lausanne, Switzerland}}}

Osorio C., Bierlaire M. (2008). Accounting for congestion and spillbacks in fixed-time traffic signal optimization: an analytical queueing model approach. Report TRANSP-OR 081026


@TechReport{OsorBier08,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {Accounting for congestion and spillbacks in fixed-time  traffic signal optimization: an analytical queueing model approach},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2008},
  type = {Technical Report},
  number = {TRANSP-OR 081026},
  address = {Lausanne, Switzerland}}}

Alahi A., Bierlaire M., Kunt M. (2008). Combination of Fixed and Mobile Cameras for Automatic Pedestrian Detection. Report TRANSP-OR 081005


@TechReport{AlahBierKunt08,
  author = {Alexandre Alahi and Michel Bierlaire and Murat Kunt},
  title = {Combination of Fixed and Mobile Cameras for Automatic Pedestrian Detection},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2008},
  type = {Technical Report},
  number = {TRANSP-OR 081005},
  address = {Lausanne, Switzerland}}}

Patterson Z., Bierlaire M. (2008). Development of Prototype UrbanSim Models. Report TRANSP-OR 080814


@TechReport{PattBier2008,
  author = {Zachary Patterson and Michel Bierlaire},
  title = {Development of Prototype UrbanSim Models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2008},
  type = {Technical Report},
  number = {TRANSP-OR 080814},
  address = {Lausanne, Switzerland}}}

Cruz J., Bierlaire M., Thiran J. (2008). Multiple-View Scenes: Reconstruction and Virtual Views. Report TRANSP-OR 080710


@TechReport{CruzBierThir08,
  author = {Javier Cruz and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Multiple-View Scenes: Reconstruction and Virtual Views},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2008},
  type = {Technical Report},
  number = {TRANSP-OR 080710},
  address = {Lausanne, Switzerland}}}

Vacca I., Bierlaire M., Salani M. (2008). Optimization at Container Terminals: Status, Trends and Perspectives (revised version). Report TRANSP-OR 080528


@TechReport{VaccBierSala2007rev,
  author = {Ilaria Vacca and Michel Bierlaire and Matteo Salani},
  title = {Optimization at Container Terminals: Status, Trends and Perspectives (revised version)},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2008},
  type = {Technical Report},
  number = {TRANSP-OR 080528},
  address = {Lausanne, Switzerland}}}

2007

Vacca I., Bierlaire M., Salani M. (2007). Optimization at Container Terminals: Status, Trends and Perspectives. Report TRANSP-OR 071204


@TechReport{VaccBierSala07,
  author = {Ilaria Vacca and Michel Bierlaire and Matteo Salani},
  title = {Optimization at Container Terminals: Status, Trends and Perspectives},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 071204},
  address = {Lausanne, Switzerland}}}

Frejinger E., Bierlaire M. (2007). Sampling of Alternatives for Route Choice Modeling. Report TRANSP-OR 071121


@TechReport{FrejBier07,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Sampling of Alternatives for Route Choice Modeling},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 071121},
  address = {Lausanne, Switzerland}}}

Robin T., Antonini G., Bierlaire M., Cruz J. (2007). Specification, estimation and validation of a pedestrian walking behavior model. Report TRANSP-OR 071116


@TechReport{RobiAntoBierCruz07,
  author = {Thomas Robin and Gianluca Antonini and Michel Bierlaire and Javier Cruz},
  title = {Specification, estimation and validation of a pedestrian walking behavior model},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 071116},
  address = {Lausanne, Switzerland}}}

Antonini G., Bierlaire M., Schneider S., Robin T. (2007). Specification, estimation and validation of a pedestrian walking behavior model. Report TRANSP-OR 070727


@TechReport{AntoBierSchnRobi07,
  author = {Gianluca Antonini and Michel Bierlaire and Sabina Schneider and Thomas Robin},
  title = {Specification, estimation and validation of a pedestrian walking behavior model},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070727},
  address = {Lausanne, Switzerland}}}

Fosgerau M., Bierlaire M. (2007). Circumventing the problem of the scale: discrete choice models with multiplicative error terms. Report TRANSP-OR 070703


@TechReport{FosgBier07-mult,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Circumventing the problem of the scale: discrete choice models with multiplicative error terms},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070703},
  address = {Lausanne, Switzerland}}}

Osorio C., Bierlaire M. (2007). An analytic finite capacity queueing network model capturing blocking, congestion and spillbacks. Report TRANSP-OR 070604


@TechReport{OsorioBierlaire07,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {An analytic finite capacity queueing network model capturing blocking, congestion and spillbacks},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070604},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Lucadamo A. (2007). Sampling of alternatives using multidimensional analysis. Report TRANSP-OR 070522


@TechReport{BierLuca07,
  author = {Michel Bierlaire and Antonio Lucadamo},
  title = {Sampling of alternatives using multidimensional analysis},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070522},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Thémans M., Zufferey N. (2007). A heuristic for nonlinear global optimization. Report TRANSP-OR 070430


@TechReport{BierThemZuff07-global,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {A heuristic for nonlinear global optimization},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070430},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2007). Recent methodological developments in discrete choice models. Report TRANSP-OR 070415


@TechReport{Bier07-procida,
  author = {Michel Bierlaire},
  title = {Recent methodological developments in discrete choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070415},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Frejinger E. (2007). Route choice modeling with network-free data. Report TRANSP-OR 070214


@TechReport{BierFrej07,
  author = {Michel Bierlaire and Emma Frejinger},
  title = {Route choice modeling with network-free data},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070214},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Frejinger E. (2007). Technical note: A Stochastic Choice Set Generation Algorithm. Report TRANSP-OR 070213


@TechReport{BierFrej07note,
  author = {Michel Bierlaire and Emma Frejinger},
  title = {Technical note: A Stochastic Choice Set Generation Algorithm},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2007},
  type = {Technical Report},
  number = {TRANSP-OR 070213},
  address = {Lausanne, Switzerland}}}

2006

Bierlaire M., Thémans M. (2006). Dealing with singularities in nonlinear unconstrained optimization. Report TRANSP-OR 061207


@TechReport{BierThem06,
  author = {Michel Bierlaire and Micha\"el Th\'emans},
  title = {Dealing with singularities in nonlinear unconstrained optimization},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {TRANSP-OR 061207},
  address = {Lausanne, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2006). A systematic comparison of continuous and discrete mixture models. Report TRANSP-OR 061117


@TechReport{HessBierPola06,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {A systematic comparison of continuous and discrete mixture models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {TRANSP-OR 061117},
  address = {Lausanne, Switzerland}}}

Fosgerau M., Bierlaire M. (2006). Discrete choice models with multiplicative error terms. Report TRANSP-OR 060831


@TechReport{FosgBier06-mult,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Discrete choice models with multiplicative error terms},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {TRANSP-OR 060831},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Bolduc D., McFadden D. (2006). The estimation of Generalized Extreme Value models from choice-based samples. Report TRANSP-OR 060810


@TechReport{BierBoldMcFa06,
  author = {Michel Bierlaire and Denis Bolduc and Dan McFadden},
  title = {The estimation of Generalized Extreme Value models from choice-based samples},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {TRANSP-OR 060810},
  address = {Lausanne, Switzerland}}}

Fosgerau M., Bierlaire M. (2006). A practical test for the choice of mixing distribution in discrete choice models. Report RO 060315


@TechReport{FosgBier06,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {A practical test for the choice of mixing distribution in discrete choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {RO 060315},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Thémans M., Axhausen K. (2006). Analysis of driver's response to real-time information in Switzerland. Report GR-BIE-REPORT-2006-002


@TechReport{BierThemAxha06,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Kay Axhausen},
  title = {Analysis of driver's response to real-time information in Switzerland},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {GR-BIE-REPORT-2006-002},
  address = {Lausanne, Switzerland}}}

Frejinger E., Bierlaire M. (2006). Capturing correlation in large-scale route choice models. Report GR-BIE-REPORT-2006-002


@TechReport{FrejBier06,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Capturing correlation in large-scale route choice models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {GR-BIE-REPORT-2006-002},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Crittin F., Thémans M. (2006). A multi-iterate method to solve systems of nonlinear equations. Report GR-BIE-REPORT-2006-001


@TechReport{BierCritThem06,
  author = {Michel Bierlaire and Frank Crittin and Micha\"el Th\'emans},
  title = {A multi-iterate method to solve systems of nonlinear equations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  number = {GR-BIE-REPORT-2006-001},
  address = {Lausanne, Switzerland}}}

Vrtic M., Schuessler N., Erath A., Axhausen K., Frejinger E., Stojanovic J., Bierlaire M., Rudel R., Maggi R. (2006). Including travelling costs in the modelling of mobility behaviour. Report


@TechReport{VRTICETAL06,
  author = {Milenko Vrtic and Nadine Schuessler and Alexander Erath and Kay Axhausen and Emma Frejinger and Jelena Stojanovic and Michel Bierlaire and Roman Rudel and Rico Maggi},
  title = {Including  travelling costs in the modelling of mobility behaviour},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2006},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2005

Abbe E., Bierlaire M., Toledo T. (2005). Normalization and correlation of cross-nested logit models. Report RO-050912


@TechReport{AbbeBierTole05,
  author = {Emmanuel Abbe and Michel Bierlaire and Tomer Toledo},
  title = {Normalization and correlation of cross-nested logit models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2005},
  type = {Technical Report},
  number = {RO-050912},
  address = {Lausanne, Switzerland}}}

Antonini G., Bierlaire M. (2005). Capturing interactions in pedestrian walking behavior in a discrete choice framework. Report GR-BIE-REPORT-2005-001


@TechReport{AntoBier05,
  author = {Gianluca Antonini and Michel Bierlaire},
  title = {Capturing interactions in pedestrian walking behavior in a discrete choice framework},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2005},
  type = {Technical Report},
  number = {GR-BIE-REPORT-2005-001},
  address = {Lausanne, Switzerland}}}

2004

Oeuvray R., Bierlaire M. (2004). Performance evaluation of BOOSTERS. Report RO-2004.1207


@TechReport{OeuvBier04a,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {Performance evaluation of BOOSTERS},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO-2004.1207},
  address = {Lausanne, Switzerland}}}

Antonini G., Bierlaire M., Weber M. (2004). Discrete choice models of pedestrian behavior. Report RO-040916


@TechReport{AntoBierWebe04,
  author = {Gianluca Antonini and Michel Bierlaire and Mats Weber},
  title = {Discrete choice models of pedestrian behavior},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO-040916},
  address = {Lausanne, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2004). Estimation of value-of-time using Mixed Logit models. Report RO-040528


@TechReport{HessBierPola04,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Estimation of value-of-time using Mixed Logit models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO-040528},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2004). Estimation et pr�diction en temps-r�el de tables origine-destination. Report RO-040504


@TechReport{Bier04,
  author = {Michel Bierlaire},
  title = {Estimation et pr\'ediction en temps-r\'eel de tables origine-destination},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO-040504},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Crittin F. (2004). A class of multi-iterate methods to solve systems of nonlinear equations. Report RO-040319


@TechReport{BierCrit04a,
  author = {Michel Bierlaire and Frank Crittin},
  title = {A class of multi-iterate methods to solve systems of nonlinear equations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO-040319},
  address = {Lausanne, Switzerland}}}

Oeuvray R., Bierlaire M. (2004). BOOSTERS: A Derivative-Free Algorithm Based on Radial Basis Functions. Report RO 2004.1124


@TechReport{OeuvBier04b,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {BOOSTERS: A Derivative-Free Algorithm Based on Radial Basis Functions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO 2004.1124},
  address = {Lausanne, Switzerland}}}

Oeuvray R., Bierlaire M. (2004). A New Derivative-free Algorithm for the Medical Image Registration Problem. Report RO 2004.0731


@TechReport{OeuvBier04c,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {A New Derivative-free Algorithm for the Medical Image Registration Problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO 2004.0731},
  address = {Lausanne, Switzerland}}}

Divorra Escoda O., Vandergheynst P., Bierlaire M. (2004). Video Representation Using Greedy Approximations Over Redundant Parametric Dictionaries. Report RO 2004 0919


@TechReport{DivoVandBier04,
  author = {Oscar {Divorra Escoda} and Pierre Vandergheynst and Michel Bierlaire},
  title = {Video Representation Using Greedy Approximations Over Redundant Parametric Dictionaries},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO 2004 0919},
  address = {Lausanne, Switzerland}}}

Antonini G., Venegas S., Thiran J., Bierlaire M. (2004). A discrete choice pedestrian behavior for pedestrian detection in visual tracking systems. Report RO 2004 09 09


@TechReport{AntoVeneThirBier04,
  author = {Gianluca Antonini and Santiago Venegas and Jean-Philippe Thiran and Michel Bierlaire},
  title = {A discrete choice pedestrian behavior for pedestrian detection in visual tracking systems},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO 2004 09 09},
  address = {Lausanne, Switzerland}}}

Spada M., Bierlaire M., Liebling T. (2004). Decision-aid Methodology for the School Bus Routing and Scheduling Problem. Report RO 2004 05 03, Revised version


@TechReport{SpadBierLieb04,
  author = {Michela Spada and Michel Bierlaire and Thomas Liebling},
  title = {Decision-aid Methodology for the School Bus Routing and Scheduling Problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {RO 2004 05 03, Revised version},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Thémans M., Axhausen K., Widmer P., Buhl T., Assef-Vaziri F. (2004). D�veloppement de mod�les suisses pour la pr�diction de la demande en transport pour des applications en temps r�el. Report OFROU VSS 1135 november 2004


@TechReport{bierthem04Ofrou,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Kay Axhausen and Paul Widmer and Thomas Buhl and Farshid Assef-Vaziri},
  title = {D\'eveloppement de mod\`eles suisses pour la pr\'ediction de la demande en transport pour des applications en temps r\'eel},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2004},
  type = {Technical Report},
  number = {OFROU VSS 1135 november 2004},
  address = {Lausanne, Switzerland}}}

2003

Daly A., Bierlaire M. (2003). A general and operational representation of GEV models. Report RO-030502


@TechReport{DalyBier03,
  author = {Andrew Daly and Michel Bierlaire},
  title = {A general and operational representation of GEV models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2003},
  type = {Technical Report},
  number = {RO-030502},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Crittin F. (2003). Solving large scale systems of nonlinear equations. Report RO 2003.08.04


@TechReport{BierCrit03,
  author = {Michel Bierlaire and Frank Crittin},
  title = {Solving large scale systems of nonlinear equations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2003},
  type = {Technical Report},
  number = {RO 2003.08.04},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Bolduc D., McFadden D. (2003). Characterisctic of generalized extreme value distributions. Report


@TechReport{BierBoldMcFa03,
  author = {Michel Bierlaire and Denis Bolduc and Dan McFadden},
  title = {Characterisctic of generalized extreme value distributions},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2003},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2002

Oeuvray R., Bierlaire M. (2002). On the differentiability of the MI estimator. Report RO-020403


@TechReport{OeuvBier02,
  author = {Rodrigue Oeuvray and Michel Bierlaire},
  title = {On the differentiability of the MI estimator},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2002},
  type = {Technical Report},
  number = {RO-020403},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Crittin F. (2002). A generalization of secant methods for solving nonlinear systems of equations. Report RO 2002.0120


@TechReport{BierCrit02,
  author = {Michel Bierlaire and Frank Crittin},
  title = {A generalization of secant methods for solving nonlinear systems of equations},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2002},
  type = {Technical Report},
  number = {RO 2002.0120},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Torday A., Baumann D. (2002). PAPABILES; Phase II: 3�me voie et contr�le d'acc�s. Report RO 2002.0101


@TechReport{BierTordBaum02,
  author = {Michel Bierlaire and Alexandre Torday and Daniel Baumann},
  title = {PAPABILES; Phase II: 3\`eme voie et contr\^ole d'acc\`es},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2002},
  type = {Technical Report},
  number = {RO 2002.0101},
  address = {Lausanne, Switzerland}}}

Spada M., Bierlaire M., Liebling T. (2002). Decision-aid Methodology for the school Bus Routing and Scheduling Problem. Report RO 2002 0819


@TechReport{SpadBierLieb02,
  author = {Michela Spada and Michel Bierlaire and Thomas Liebling},
  title = {Decision-aid Methodology for the school Bus Routing and Scheduling Problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2002},
  type = {Technical Report},
  number = {RO 2002 0819},
  address = {Lausanne, Switzerland}}}

Antonini G., Venegas S., Bierlaire M., Thiran J. (2002). Behavioral Filtering of Human Trajectories for Automatic-Multi-Track Initiation. Report ITS-03-04


@TechReport{AntoVeneBierThir02,
  author = {Gianluca Antonini and Santiago Venegas and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Behavioral Filtering of Human Trajectories for Automatic-Multi-Track Initiation},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2002},
  type = {Technical Report},
  number = {ITS-03-04},
  address = {Lausanne, Switzerland}}}

Schoenfelder S., Axhausen K., Antille N., Bierlaire M. (2002). Exploring the potentials of automatically colected GPS data for travel Behaviour analysis: A Swedish data source. Report


@TechReport{SchoAxhaAntiBier02,
  author = {Stefan Schoenfelder and Kay Axhausen and Nicolas Antille and Michel Bierlaire},
  title = {Exploring the potentials of automatically colected GPS data for travel Behaviour analysis: A Swedish data source},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2002},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2001

Bierlaire M. (2001). A theoretical analysis of the cross-nested logit model. Report RO 2001.1218


@TechReport{Bier01,
  author = {Michel Bierlaire},
  title = {A theoretical analysis of the cross-nested logit model},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2001},
  type = {Technical Report},
  number = {RO 2001.1218},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Crittin F. (2001). An efficient algorithm for real-time estimation and prediction of dynamic OD tables. Report RO 2001.0808


@TechReport{BierCrit01,
  author = {Michel Bierlaire and Frank Crittin},
  title = {An efficient algorithm for real-time estimation and prediction of dynamic OD tables},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2001},
  type = {Technical Report},
  number = {RO 2001.0808},
  address = {Lausanne, Switzerland}}}

Benvenuti G., Halary-Wagner E., Hoffman P., Bierlaire M. (2001). Highly uniform impinging rate for chemical molecular beams. Report


@TechReport{BenvHalaHoffBier01,
  author = {Giacomo Benvenuti and Estelle Halary-Wagner and Patrick Hoffman and Michel Bierlaire},
  title = {Highly uniform impinging rate for chemical molecular beams},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2001},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

Crittin F., Bierlaire M. (2001). New algorithmic approaches for the anticipatory route guidance generation problem. Report


@TechReport{CritBier01,
  author = {Frank Crittin and Michel Bierlaire},
  title = {New algorithmic approaches for the anticipatory route guidance generation problem},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2001},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

Torday A., Bierlaire M., Dumont A. (2001). Simulation-based evaluation of the impact of variable speed limit signs on capacity and user safety. Report


@TechReport{TordBierDumo01,
  author = {Alexandre Torday and Michel Bierlaire and Andr\'e-Gilles Dumont},
  title = {Simulation-based evaluation of the impact of variable speed limit signs on capacity and user safety},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2001},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

2000

Liebling T., Bierlaire M., Crittin F., Hêche J., Thiémard E., Stagno A., Righetti F. (2000). Modeling and simulation in logistics. Report RO 2000.0831


@TechReport{LiebBierCritHechThieStagRigh00,
  author = {Thomas Liebling and Michel Bierlaire and Frank Crittin and Jean-Fran\c{c}ois H\^eche and Eric Thi\'emard and Antonio Stagno and Franco Righetti},
  title = {Modeling and simulation in logistics},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2000},
  type = {Technical Report},
  number = {RO 2000.0831},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (2000). The Total Demand Scale: A new measure of quality for statistic and dynamic origin-destination. Report RO 2000.0601


@TechReport{Bier00,
  author = {Michel Bierlaire},
  title = {The Total Demand Scale: A new measure of quality for statistic and dynamic origin-destination},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2000},
  type = {Technical Report},
  number = {RO 2000.0601},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Ben-Akiva M., Koutsopoulos H., Mishalani R. (2000). Real-Time simulation of traffic demand-supply interactions within DynaMIT. Report RO 2000.0301


@TechReport{BierBenaKoutMish00,
  author = {Michel Bierlaire and Moshe Ben-Akiva and Haris Koutsopoulos and Rabi Mishalani},
  title = {Real-Time simulation of traffic demand-supply interactions within DynaMIT},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2000},
  type = {Technical Report},
  number = {RO 2000.0301},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Mishalani R., Ben-Akiva M. (2000). General framework for Dynamic Demand Simulation. Report RO 2000.0223


@TechReport{BierMishBena00,
  author = {Michel Bierlaire and Rabi Mishalani and Moshe Ben-Akiva},
  title = {General framework for Dynamic Demand Simulation},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {2000},
  type = {Technical Report},
  number = {RO 2000.0223},
  address = {Lausanne, Switzerland}}}

1999

Bierlaire M., Crittin F. (1999). Optimisation de grande taille sans d�riv�e: Etat de l'art et perspectives. Report RO 99.04.14


@TechReport{BierCrit99,
  author = {Michel Bierlaire and Frank Crittin},
  title = {Optimisation de grande taille sans d\'eriv\'ee: Etat de l'art et perspectives},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1999},
  type = {Technical Report},
  number = {RO 99.04.14},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (1999). PROJET PAPABILES:Projet Autoroutier Pilote d'Aubonne-Belmont pour une Initiative Lausannoise d'Evaluation par Simulation (Phase I: Etude pr�liminaire). Report RO 1999.1021


@TechReport{Bier99a,
  author = {Michel Bierlaire},
  title = {PROJET PAPABILES:Projet Autoroutier Pilote d'Aubonne-Belmont pour une Initiative Lausannoise d'Evaluation par Simulation (Phase I: Etude pr\'eliminaire)},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1999},
  type = {Technical Report},
  number = {RO 1999.1021},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (1999). ANEGEV: Analysis and Estimation of Generalized Extreme Value Models. Report RO 1999.0915


@TechReport{Bier99b,
  author = {Michel Bierlaire},
  title = {ANEGEV: Analysis and Estimation of Generalized Extreme Value Models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1999},
  type = {Technical Report},
  number = {RO 1999.0915},
  address = {Lausanne, Switzerland}}}

1995

Bierlaire M. (1995). A robust algorithm for the simultaneous estimation of hierarchical logit models. Report FUNDP GRT 95/3


@TechReport{Bier95c,
  author = {Michel Bierlaire},
  title = {A robust algorithm for the simultaneous estimation of hierarchical logit models},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1995},
  type = {Technical Report},
  number = {FUNDP GRT 95/3},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (1995). Pr�f�rences d�clar�es des �tudiants de licences pour les choix de cours � option, ann�e acad�mique 1994-1995. Report FUNDP 95/11


@TechReport{Bier95b,
  author = {Michel Bierlaire},
  title = {Pr\'ef\'erences d\'eclar\'ees des \'etudiants de licences pour les choix de cours \`a option, ann\'ee acad\'emique 1994-1995},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1995},
  type = {Technical Report},
  number = {FUNDP 95/11},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (1995). Enqu�tes de pr�f�rences r�v�l�es et d�clar�es concernant le choix modal des voyageurs du corridor Lisbonne-Porto-Braga.. Report


@TechReport{Bier95a,
  author = {Michel Bierlaire},
  title = {Enqu\^etes de pr\'ef\'erences r\'ev\'el\'ees et d\'eclar\'ees concernant le choix modal des voyageurs du corridor Lisbonne-Porto-Braga.},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1995},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Vandevyvere Y. (1995). HieLoW: the interactive user's guide. Report


@TechReport{BierVand95,
  author = {Michel Bierlaire and Yves Vandevyvere},
  title = {HieLoW: the interactive user's guide},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1995},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

Dellaert B., Arentze T., Bierlaire M., Borgers A., Timmermans H. (1995). A multi-purpose multi-stop model of consumer shopping centre choice. Report


@TechReport{DellArenBierBorgTimm95,
  author = {Benedict Dellaert and Theo Arentze and Michel Bierlaire and Alois Borgers and Harry Timmermans},
  title = {A multi-purpose multi-stop model of consumer shopping centre choice},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1995},
  type = {Technical Report},
  address = {Lausanne, Switzerland}}}

1994

Bierlaire M. (1994). HieLoW: un logiciel d'estimation de mod�les logit embo�t�s. Report cahiers du MET 5:69-87


@TechReport{Bier94,
  author = {Michel Bierlaire},
  title = {HieLoW: un logiciel d'estimation de mod\`eles logit embo{\^\i}t\'es},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1994},
  type = {Technical Report},
  number = {cahiers du MET 5:69-87},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Toint P. (1994). MEUSE: un estimateur de matrice origine-destination qui exploite la structure. Report Cahiers du MET 5: 69/87


@TechReport{BierToin94,
  author = {Michel Bierlaire and Philippe Toint},
  title = {MEUSE: un estimateur de matrice origine-destination qui exploite la structure},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1994},
  type = {Technical Report},
  number = {Cahiers du MET 5: 69/87},
  address = {Lausanne, Switzerland}}}

1993

Bierlaire M., Burton D., Lotan T. (1993). On the behavioural aspects of modal choice. Report FUNDP 93/22


@TechReport{BierBurtLota93,
  author = {Michel Bierlaire and Didier Burton and Tsippy Lotan},
  title = {On the behavioural aspects of modal choice},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1993},
  type = {Technical Report},
  number = {FUNDP 93/22},
  address = {Lausanne, Switzerland}}}

1992

Bierlaire M. (1992). Analyse d'un service gratuit de transport en commun li� � une surface commerciale: le bus Sarma entre Namur et Jambes. Report FUNDP, GRT 92/06


@TechReport{Bier92a,
  author = {Michel Bierlaire},
  title = {Analyse d'un service gratuit de transport en commun li\'e \`a une surface commerciale: le bus Sarma entre Namur et Jambes},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1992},
  type = {Technical Report},
  number = {FUNDP, GRT 92/06},
  address = {Lausanne, Switzerland}}}

Bierlaire M. (1992). S�mianire AGIR: Stated preferences ou analyse des choix exprim�s. Report FUNDP GRT 15


@TechReport{Bier92b,
  author = {Michel Bierlaire},
  title = {S\'emianire AGIR: Stated preferences ou analyse des choix exprim\'es},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1992},
  type = {Technical Report},
  number = {FUNDP GRT 15},
  address = {Lausanne, Switzerland}}}

1991

Bierlaire M., Toint P. (1991). Les mod�les de trafic: fonctionnement et applications. Report cahiers de l'Urbanisme


@TechReport{BierToin91,
  author = {Michel Bierlaire and Philippe Toint},
  title = {Les mod\`eles de trafic: fonctionnement et applications},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1991},
  type = {Technical Report},
  number = {cahiers de l'Urbanisme},
  address = {Lausanne, Switzerland}}}

1990

Bierlaire M., Toint P. (1990). La circulation � Namur: projets d'am�nagement. Report GEC report 90/14


@TechReport{Biertoin90a,
  author = {Michel Bierlaire and Philippe Toint},
  title = {La circulation \`a Namur: projets d'am\'enagement},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1990},
  type = {Technical Report},
  number = {GEC report 90/14},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Toint P. (1990). Une approche de l'impportance relative des parkings au centre de Namur. Report GEC Report 90/1


@TechReport{Biertoin90b,
  author = {Michel Bierlaire and Philippe Toint},
  title = {Une approche de l'impportance relative des parkings au centre de Namur},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1990},
  type = {Technical Report},
  number = {GEC Report 90/1},
  address = {Lausanne, Switzerland}}}

1989

Bierlaire M., Burton D., Thiry S. (1989). Le contournement de Couvin: �tude pr�liminaire. Report FUNDP, TRG 89/11


@TechReport{BierBurtThir89,
  author = {Michel Bierlaire and Didier Burton and Suzanne Thiry},
  title = {Le contournement de Couvin: \'etude pr\'eliminaire},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1989},
  type = {Technical Report},
  number = {FUNDP, TRG 89/11},
  address = {Lausanne, Switzerland}}}

Bierlaire M., Cornelis E. (1989). Etude de l'impact sur la circulation de l'implantation des bureaux de la R�gion Wallone � Jambes. Report FUNDP, GRT 89/12


@TechReport{BierCorn89,
  author = {Michel Bierlaire and Eric Cornelis},
  title = {Etude de l'impact sur la circulation de l'implantation des bureaux de la R\'egion Wallone \`a Jambes},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1989},
  type = {Technical Report},
  number = {FUNDP, GRT 89/12},
  address = {Lausanne, Switzerland}}}

1988

Bierlaire M. (1988). R�solution de moindres carr�s lin�aires creux anec contraintes de bornes. Report Master's thesis, FUNDP


@TechReport{Bier88,
  author = {Michel Bierlaire},
  title = {R\'esolution de moindres carr\'es lin\'eaires creux anec contraintes de bornes},
  institution = {Transport and Mobility Laboratory, Ecole Polytechnique F\'ed\'erale de Lausanne},
  year = {1988},
  type = {Technical Report},
  number = {Master's thesis, FUNDP},
  address = {Lausanne, Switzerland}}}

Articles in conference proceedings [222]

2023

Rezvany N., Hillel T., Bierlaire M. (2023) From domestic energy demand to household activity patterns. Proceedings of the 23rd Swiss Transport Research Conference (STRC)10-12 May, Ascona, Switzerland


@InProceedings{RezHilBie_STRC2023,
  author = {Negar Rezvany and Tim Hillel and Michel Bierlaire},
  title = {From domestic energy demand to household activity patterns},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

Ortelli N., de Lapparent M., Bierlaire M. (2023) Faster estimation of discrete choice models via weighted dataset reduction. Proceedings of the 11th Symposium of the European Association for Research in Transportation (HEART), 6-8 September 2023, Zurich, Switzerland


@InProceedings{OrtHilPerLapBie_HEART2023,
  author = {Nicola Ortelli and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Faster estimation of discrete choice models via

weighted dataset reduction},
  booktime = {Proceedings of the 11th Symposium of the European Association for Research in Transportation (HEART), 6-8 September 2023},
  year = {2023},
  address = {Zurich, Switzerland}}}

Kukic M., Benchelabi S., Bierlaire M. (2023) Hybrid Simulator for Capturing Dynamics of Synthetic Population. Proceedings of the 26th IEEE International Conference on Intelligent Transportation Systems (ITSC), 24 September -28 September, Bilbao, Bizkaia, Spain


@InProceedings{KukicB_ITSC2023,
  author = {Marija Kukic and Salim Benchelabi and Michel Bierlaire},
  title = {Hybrid Simulator for Capturing Dynamics of

Synthetic Population},
  booktime = {Proceedings of the 26th IEEE International Conference on Intelligent Transportation Systems (ITSC), 24 September -28 September},
  year = {2023},
  address = {Bilbao, Bizkaia, Spain}}}

Beine M., Bierlaire M., Paschalidis E., Vortisch A. (2023) Sampling of alternatives in migration aspiration models. Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May, Ascona, Switzerland


@InProceedings{PaschalidisBierlaire_STRC2023,
  author = {Michel Beine and Michel Bierlaire and Evangelos Paschalidis and Andreas Vortisch},
  title = {Sampling of alternatives in migration aspiration models},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

Haering T., Bierlaire M. (2023) A Spatial Branch and Bound Algorithm for Continuous Pricing with Advanced Discrete Choice Demand Modeling. Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May, Ascona, Switzerland


@InProceedings{Haering_STRC2023,
  author = {Tom Haering and Michel Bierlaire},
  title = {A Spatial Branch and Bound Algorithm for Continuous Pricing with Advanced Discrete Choice Demand Modeling},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

Kukic M., Bierlaire M. (2023) Hybrid Simulator for Capturing Dynamics of Synthetic Population. Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May, Ascona, Switzerland


@InProceedings{KukicBierlaire_STRC2023,
  author = {Marija Kukic and Michel Bierlaire},
  title = {Hybrid Simulator for Capturing Dynamics of

Synthetic Population},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

Ortelli N., de Lapparent M., Bierlaire M. (2023) Stochastic adaptive resampling for the estimation of discrete choice models. Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May, Ascona, Switzerland


@InProceedings{OrtLapBie_STRC2023,
  author = {Nicola Ortelli and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Stochastic adaptive resampling for the estimation of discrete choice models},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

Pougala J., Hillel T., Bierlaire M. (2023) From one-day to multiday activity scheduling: extending the OASIS framework. Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May, Ascona, Switzerland


@InProceedings{PoHiBi_STRC2023,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {From one-day to multiday activity scheduling: extending the OASIS framework},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

Wang M., Pougala J., Bierlaire M. (2023) Initial comparisons between Multiple Discrete-Continuous Extreme Value (MDCEV) model and Optimization-based Activity Scheduling Integrating Simultaneous choice dimensions (OASIS) framework. Proceedings of the 23rd Swiss Transport Research Conference (STRC) (STRC), 10-12 May, Ascona, Switzerland


@InProceedings{WanPouBie_STRC2023,
  author = {Mengyi Wang and Janody Pougala and Michel Bierlaire},
  title = {Initial comparisons between Multiple Discrete-Continuous Extreme Value (MDCEV) model and Optimization-based Activity Scheduling Integrating Simultaneous choice dimensions (OASIS) framework},
  booktime = {Proceedings of the 23rd Swiss Transport Research Conference (STRC) (STRC), 10-12 May},
  year = {2023},
  address = {Ascona, Switzerland}}}

2022

Bierlaire M., Fadda E., Fotio Tiotsop L., Manerba D. (2022) A chance-constraint approach for optimizing Social Engagement-based services. Proceedings of the 17th Conference on Computer Science and Intelligence Systems (FedCSIS), September 4-7, 2022, Sofia, Bulgaria


@InProceedings{BierFaddFotiMane22,
  author = {Michel Bierlaire and Eduardo Fadda and Loic {Fotio Tiotsop} and Daniele Manerba},
  title = {A chance-constraint approach for optimizing Social Engagement-based services},
  booktime = {Proceedings of the 17th Conference on Computer Science and Intelligence Systems (FedCSIS), September 4-7, 2022},
  year = {2022},
  address = {Sofia, Bulgaria}}}

Haering T., Bongiovanni C., Bierlaire M. (2022) A Benders decomposition for maximum simulated likelihood estimation of advanced discrete choice models. Proceedings of the 10th symposium of the European Association for Research in Transportation (hEART) (hEART), 1-3 June 2022, Leuven, Belgium


@InProceedings{haering_heart2022,
  author = {Tom Haering and Claudia Bongiovanni and Michel Bierlaire},
  title = {A Benders decomposition for maximum simulated likelihood estimation of advanced discrete choice models},
  booktime = {Proceedings of the 10th symposium of the European Association for Research in Transportation (hEART) (hEART), 1-3 June 2022},
  year = {2022},
  address = {Leuven, Belgium}}}

Rezvany N., Hillel T., Bierlaire M. (2022) A utility optimization-based framework for joint in- and out-of-home scheduling. Proceedings of the 10th symposium of the European Association for Research in Transportation (hEART) (hEART), 1-3 June 2022, Leuven, Belgium


@InProceedings{RezHilBie_hEART2022,
  author = {Negar Rezvany and Tim Hillel and Michel Bierlaire},
  title = {A utility optimization-based framework for joint in- and out-of-home scheduling},
  booktime = {Proceedings of the 10th symposium of the European Association for Research in Transportation (hEART) (hEART), 1-3 June 2022},
  year = {2022},
  address = {Leuven, Belgium}}}

Atac S., Obrenovic N., Bierlaire M. (2022) A general framework to evaluate different rebalancing operations strategies in one-way car sharing systems. Proceedings of the International Conference on Operations Research (OR 2022), 06-09 September, Karlsruhe, Germany


@InProceedings{AtaObrBie_GermanOR2022_v0,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {A general framework to evaluate different rebalancing operations strategies in one-way car sharing systems},
  booktime = {Proceedings of the  International Conference on Operations Research (OR 2022), 06-09 September},
  year = {2022},
  address = {Karlsruhe, Germany}}}

Atac S., Obrenovic N., Bierlaire M. (2022) Evaluating different strategies to solve rebalancing operations in car sharing systems. Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{AtaObrBie_STRC2022,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {Evaluating different strategies to solve rebalancing operations in car sharing systems},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

Haering T., Bongiovanni C., Bierlaire M. (2022) A Benders decomposition for maximum simulated likelihood estimation of advanced discrete choice models. Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{Haering_STRC2022,
  author = {Tom Haering and Claudia Bongiovanni and Michel Bierlaire},
  title = {A Benders decomposition for maximum simulated likelihood estimation of advanced discrete choice models},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

Haering T., Bongiovanni C., Bierlaire M. (2022) A Benders decomposition for maximum simulated likelihood estimation of advanced discrete choice models. Proceedings of the 11th Triennial Symposium on Transportation Analysis (TRISTAN XI) (STRC), 19-25 June, , Mauritius


@InProceedings{haering_TRISTAN2022,
  author = {Tom Haering and Claudia Bongiovanni and Michel Bierlaire},
  title = {A Benders decomposition for maximum simulated likelihood estimation of advanced discrete choice models},
  booktime = {Proceedings of the 11th Triennial Symposium on Transportation Analysis (TRISTAN XI) (STRC), 19-25 June},
  year = {2022},
  address = {, Mauritius}}}

Kukic M., Bierlaire M. (2022) One-step simulator for synthetic household generation. Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{KukicBierlaire_STRC2022,
  author = {Marija Kukic and Michel Bierlaire},
  title = {One-step simulator for synthetic household generation},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

Ortelli N., de Lapparent M., Bierlaire M. (2022) Faster estimation of discrete choice models via dataset reduction. Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{OrtLapBie_STRC2022,
  author = {Nicola Ortelli and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Faster estimation of discrete choice models via dataset reduction},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

Pougala J., Hillel T., Bierlaire M. (2022) Parameter estimation for activity-based models. Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{PoHiBi_STRC2022,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Parameter estimation for activity-based models},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

Rezvany N., Hillel T., Bierlaire M. (2022) Integrated in- and out-of-home scheduling framework: A utility optimization-based approach. Proceedings of the 22nd Swiss Transport Research Conference (STRC ), 18-20 May, Ascona, Switzerland


@InProceedings{RezHilBie_STRC2022,
  author = {Negar Rezvany and Tim Hillel and Michel Bierlaire},
  title = {Integrated in- and out-of-home scheduling framework: A utility optimization-based approach},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC ), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

Salvadé N., Hillel T., Pougala J., Haering T., Bierlaire M. (2022) Representing location choice within activity-based models. Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{Salvade_STRC2022,
  author = {Nicolas Salvad\'e and Tim Hillel and Janody Pougala and Tom Haering and Michel Bierlaire},
  title = {Representing location choice within activity-based models},
  booktime = {Proceedings of the 22nd Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2022},
  address = {Ascona, Switzerland}}}

2021

Atac S., Obrenovic N., Bierlaire M. (2021) A multi-objective approach for station clustering in bike sharing systems. Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, Ascona, Switzerland


@InProceedings{AtaObrBie_STRC2021,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {A multi-objective approach for station clustering in bike sharing systems},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2021) Benders decomposition for choice-based optimization problems with discrete upper-level variables. Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, ,


@InProceedings{BorLurBieBon_STRC2021,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {Benders decomposition for choice-based optimization problems with discrete upper-level variables},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {, }}}

Haering T., Manser P., Hillel T., Pougala J., Krueger R., Bierlaire M. (2021) Resolving time conflicts in activity-based scheduling: A case study of Lausanne. Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, Ascona, Switzerland


@InProceedings{Haering_STRC2021,
  author = {Tom Haering and Patrick Manser and Tim Hillel and Janody Pougala and Rico Krueger and Michel Bierlaire},
  title = {Resolving time conflicts in activity-based scheduling: A case study of Lausanne},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

Kukic M., Bierlaire M. (2021) Population synthesis at the level of households. Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, Ascona, Switzerland


@InProceedings{KuBi_STRC2021,
  author = {Marija Kukic and Michel Bierlaire},
  title = {Population synthesis at the level of households},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

Ortelli N., Bierlaire M., de Lapparent M. (2021) Can we infer on behavioral impacts of public policy on accident severity outcomes? A Swiss case study using historical disaggregate accident reports. Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, Ascona, Switzerland


@InProceedings{OrtBieLap_STRC2021,
  author = {Nicola Ortelli and Michel Bierlaire and Matthieu {de Lapparent}},
  title = {Can we infer on behavioral impacts of public policy on accident severity outcomes? A Swiss case study using historical disaggregate accident reports},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

Pougala J., Hillel T., Bierlaire M. (2021) Choice set generation for activity-based models. Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, Ascona, Switzerland


@InProceedings{PoHiBi_STRC2021,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Choice set generation for activity-based models},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

Rezvany N., Hillel T., Bierlaire M. (2021) Integrated models of transport and energy demand: A literature review and framework. Proceedings of the 21st Swiss Transport Research Conference (STRC ), 12-14 September, Ascona, Switzerland


@InProceedings{RezHilBie_STRC2021,
  author = {Negar Rezvany and Tim Hillel and Michel Bierlaire},
  title = {Integrated models of transport and energy demand: A literature review and framework},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC ), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

Wong M., Martín-Baos J., Bierlaire M. (2021) A unimodal ordered logit model for ranked choices . Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September, Ascona, Switzerland


@InProceedings{WonMarBie_STRC2021,
  author = {Melvin Wong and {Jos\'e \'Angel} Mart{\'\i}n-Baos and Michel Bierlaire},
  title = {A unimodal ordered logit model for ranked choices	},
  booktime = {Proceedings of the 21st Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2021},
  address = {Ascona, Switzerland}}}

2020

Atac S., Obrenovic N., Bierlaire M. (2020) Bike Sharing Systems: Does demand forecasting yield a better service?. Proceedings of the 9th Symposium of the European Association for Research in Transportation (hEART), 3-4 February 2021, Lyon, France


@InProceedings{AtaObrBie_hEART2020,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {Bike Sharing Systems: Does demand forecasting yield a better service?},
  booktime = {Proceedings of the 9th Symposium of the European Association for Research in Transportation (hEART), 3-4 February 2021},
  year = {2020},
  address = {Lyon, France}}}

Hillel T., Pougala J., Manser P., Luethi R., Scherr W., Bierlaire M. (2020) Modelling mobility tool availability at a household and individual level: A case study of Switzerland. Proceedings of the 9th Symposium of the European Association for Research in Transportation (HEART), 3-4 February 2021, Lyon, France


@InProceedings{HilPouManLueSchBie_HEART2020,
  author = {Tim Hillel and Janody Pougala and Patrick Manser and Raphael Luethi and Wolfgang Scherr and Michel Bierlaire},
  title = {Modelling mobility tool availability at a household and individual level: A case study of Switzerland},
  booktime = {Proceedings of the 9th Symposium of the European Association for Research in Transportation (HEART), 3-4 February 2021},
  year = {2020},
  address = {Lyon, France}}}

Ortelli N., Hillel T., Pereira F., de Lapparent M., Bierlaire M. (2020) Variable Neighborhood Search for Assisted Utility Specification in Discrete Choice Models. Proceedings of the 9th Symposium of the European Association for Research in Transportation (HEART), 3-4 February 2021, Lyon, France


@InProceedings{OrtHilPerLapBie_HEART2020,
  author = {Nicola Ortelli and Tim Hillel and Francisco Pereira and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Variable Neighborhood Search for Assisted Utility Specification in Discrete Choice Models},
  booktime = {Proceedings of the 9th Symposium of the European Association for Research in Transportation (HEART), 3-4 February 2021},
  year = {2020},
  address = {Lyon, France}}}

Pougala J., Hillel T., Bierlaire M. (2020) An optimization framework for daily activity schedules. Proceedings of the 9th Symposium of the European Association for Research in Transportation (HEART), 3-4 February 2021, Lyon, France


@InProceedings{PouHilBie_HEART2020,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {An optimization framework for daily activity schedules},
  booktime = {Proceedings of the 9th Symposium of the European Association for Research in Transportation (HEART), 3-4 February 2021},
  year = {2020},
  address = {Lyon, France}}}

Atac S., Obrenovic N., Bierlaire M. (2020) Vehicle sharing systems: Does demand forecasting yield a better service?. Proceedings of the 20th Swiss Transport Research Conference (STRC), 13-14 May, Ascona, Switzerland


@InProceedings{AtaObrBie_STRC2020,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {Vehicle sharing systems: Does demand forecasting yield a better service?},
  booktime = {Proceedings of the 20th Swiss Transport Research Conference (STRC), 13-14 May},
  year = {2020},
  address = {Ascona, Switzerland}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2020) Optimal regulation of oligopolistic markets under discrete choice models of demand. Proceedings of the 20th Swiss Transport Research Conference (STRC), 13-15 May, ,


@InProceedings{BorLurBie_STRC2020,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {Optimal regulation of oligopolistic markets under discrete choice models of demand},
  booktime = {Proceedings of the 20th Swiss Transport Research Conference (STRC), 13-15 May},
  year = {2020},
  address = {, }}}

Pougala J., Hillel T., Bierlaire M. (2020) Scheduling of daily activities: an optimization approach. Proceedings of the 20th Swiss Transport Research Conference (STRC), 13-14 May, Ascona, Switzerland


@InProceedings{PouHilBie_STRC2020,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Scheduling of daily activities: an optimization approach},
  booktime = {Proceedings of the 20th Swiss Transport Research Conference (STRC), 13-14 May},
  year = {2020},
  address = {Ascona, Switzerland}}}

2019

Atac S., Obrenovic N., Bierlaire M. (2019) A holistic decision making framework for a vehicle sharing system. Proceedings of the 23rd European Conference on Advances in Databases and Information Systems (ADBIS), 08-11 September, Bled, Slovenia


@InProceedings{AtaObrBie_ADBIS2019,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {A holistic decision making framework for a vehicle sharing system},
  booktime = {Proceedings of the 23rd European Conference on Advances in Databases and Information Systems (ADBIS), 08-11 September},
  year = {2019},
  address = {Bled, Slovenia}}}

Hillel T., Jin Y., Elshafie M., Bierlaire M. (2019) Weak teachers: Assisted specification of discrete choice models using ensemble learning. Proceedings of the 8th Symposium of the European Association for Research in Transportation (HEART), 4-6 September, Budapest, Hungary


@InProceedings{HilBieElsJin_HEART2019,
  author = {Tim Hillel and Ying Jin and Mohammed Elshafie and Michel Bierlaire},
  title = {Weak teachers: Assisted specification of discrete choice models using ensemble learning},
  booktime = {Proceedings of the 8th Symposium of the European Association for Research in Transportation (HEART), 4-6 September},
  year = {2019},
  address = {Budapest, Hungary}}}

Lederrey G., Lurkin V., Hillel T., Bierlaire M. (2019) Stochastic optimization with adaptive batch size: Discrete choice models as a case study. Proceedings of the 8th Symposium of the European Association for Research in Transportation (HEART), 4-6 September, Budapest, Hungary


@InProceedings{LEDLURHILBIER_HEART19,
  author = {Gael Lederrey and Virginie Lurkin and Tim Hillel and Michel Bierlaire},
  title = {Stochastic optimization with adaptive

batch size: Discrete choice models as a case study},
  booktime = {Proceedings of the 8th Symposium of the European

Association for Research in Transportation (HEART), 4-6 September},
  year = {2019},
  address = {Budapest, Hungary}}}

Atac S., Obrenovic N., Bierlaire M. (2019) An optimization framework for light electric vehicle sharing systems. Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May, Ascona, Switzerland


@InProceedings{AtaObrBie_STRC2019,
  author = {Selin Atac and Nikola Obrenovic and Michel Bierlaire},
  title = {An optimization framework for light electric vehicle sharing systems},
  booktime = {Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May},
  year = {2019},
  address = {Ascona, Switzerland}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2019) A demand-based optimization approach to find market equilibria in oligopolies. Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May, Ascona, Switzerland


@InProceedings{BorLurBie_STRC2019,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {A demand-based optimization approach to find market equilibria in oligopolies},
  booktime = {Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May},
  year = {2019},
  address = {Ascona, Switzerland}}}

Lederrey G., Lurkin V., Hillel T., Bierlaire M. (2019) Stochastic optimization with adaptive batch size: Discrete choice models as a case study. Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May, Ascona, Switzerland


@InProceedings{LEDLURHILBIER_STRC019,
  author = {Gael Lederrey and Virginie Lurkin and Tim Hillel and Michel Bierlaire},
  title = {Stochastic optimization with adaptive batch size: Discrete choice models as a case study},
  booktime = {Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May},
  year = {2019},
  address = {Ascona, Switzerland}}}

Molyneaux N., Scarinci R., Bierlaire M. (2019) The impact of counter-flow on pedestrian walking times. Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May, Ascona, Switzerland


@InProceedings{MolScaBie_STRC2019,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {The impact of counter-flow on pedestrian walking times},
  booktime = {Proceedings of the 19th Swiss Transport Research Conference (STRC), 15-17 May},
  year = {2019},
  address = {Ascona, Switzerland}}}

Mueller F., Schmidt K., Guerster M., Obrenovic N., Bierlaire M. (2019) Model-based economic analysis of electrification in railway - Understanding the impact of track, operations, and uncertainties. Proceedings of the 19th Swiss Transport Research Conference (STRC 2019), May 15-17, Ascona, Switzerland


@InProceedings{Mueller_STRC2019,
  author = {Florian Mueller and Kilian Schmidt and Markus Guerster and Nikola Obrenovic and Michel Bierlaire},
  title = {Model-based economic analysis of electrification in railway - Understanding the impact of track, operations, and uncertainties},
  booktime = {Proceedings of the 19th Swiss Transport Research Conference (STRC 2019), May 15-17},
  year = {2019},
  address = {Ascona, Switzerland}}}

Molyneaux N., Scarinci R., Bierlaire M. (2019) Improving pedestrian dynamics by preventing counter-flow. Proceedings of the Tenth Triennial Symposium on Transportation Analysis (TRISTAN X), 17-21 June, Hamilton Island, Australia


@InProceedings{MolScaBie_TRISTAN_2019,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Improving pedestrian dynamics by preventing counter-flow},
  booktime = {Proceedings of the Tenth Triennial Symposium on Transportation Analysis (TRISTAN X), 17-21 June},
  year = {2019},
  address = {Hamilton Island, Australia}}}

2018

Molyneaux N., Scarinci R., Bierlaire M. (2018) Controlling Pedestrian Flows Using a Dynamic Traffic Management System. Proceedings of the 7th International Symposium on Dynamic Traffic Assignment: Smart Transportation (DTA), 6-8 June, Hong Kong, China


@InProceedings{MolScaBie_DTA2018,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Controlling Pedestrian Flows Using a Dynamic Traffic Management System},
  booktime = {Proceedings of the 7th International Symposium on 

Dynamic Traffic Assignment: Smart Transportation (DTA), 6-8 June},
  year = {2018},
  address = {Hong Kong, China}}}

Lederrey G., Lurkin V., Bierlaire M. (2018) SNM: Stochastic Newton Method for Optimization of Discrete Choice Models . Proceedings of the 21st IEEE International Conference on Intelligent Transportation Systems (IEEE ITSC'18), 4-7 November, Maui, Hawaii


@InProceedings{LedLurBiel_IEEE2018,
  author = {Gael Lederrey and Virginie Lurkin and Michel Bierlaire},
  title = {SNM: Stochastic Newton Method for Optimization of Discrete Choice Models },
  booktime = {Proceedings of the 21st IEEE International Conference on Intelligent Transportation Systems (IEEE  ITSC'18), 4-7 November},
  year = {2018},
  address = {Maui, Hawaii}}}

Bortolomiol S., Lurkin V., Bierlaire M. (2018) Modelling competition in demand-based optimization models. Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May, Ascona, Switzerland


@InProceedings{BorLurBie_STRC2018,
  author = {Stefano Bortolomiol and Virginie Lurkin and Michel Bierlaire},
  title = {Modelling competition in demand-based optimization models},
  booktime = {Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May},
  year = {2018},
  address = {Ascona, Switzerland}}}

Hillel T., Bierlaire M., Elshafie M., Jin Y. (2018) Validation of probabilistic classifiers. Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May, Ascona, Switzerland


@InProceedings{HilBieElsJin_STRC2018,
  author = {Tim Hillel and Michel Bierlaire and Mohammed Elshafie and Ying Jin},
  title = {Validation of probabilistic classifiers},
  booktime = {Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May},
  year = {2018},
  address = {Ascona, Switzerland}}}

Jeanbart C., Molyneaux N., Scarinci R., Bierlaire M. (2018) Network design of moving walkways in transportation hubs. Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May, Ascona, Switzerland


@InProceedings{JeaMolScaBie_STRC2018,
  author = {Charles Jeanbart and Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Network design of moving walkways in transportation hubs},
  booktime = {Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May},
  year = {2018},
  address = {Ascona, Switzerland}}}

Molyneaux N., Scarinci R., Bierlaire M. (2018) Two management strategies for improving passenger transfer experience in train stations . Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May, Ascona, Switzerland


@InProceedings{MolScaBie_STRC2018,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Two management strategies for improving passenger transfer experience in train stations },
  booktime = {Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May},
  year = {2018},
  address = {Ascona, Switzerland}}}

Pacheco M., Gendron B., Lurkin V., Sharif Azadeh S., Bierlaire M. (2018) A Lagrangian relaxation technique for the demand-based benefit maximization problem. Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May, Ascona, Switzerland


@InProceedings{PacGenLurShaBie_STRC2018,
  author = {Meritxell Pacheco and Bernard Gendron and Virginie Lurkin and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {A Lagrangian relaxation technique for the demand-based benefit maximization problem},
  booktime = {Proceedings of the 18th Swiss Transport Research Conference (STRC), 16-18 May},
  year = {2018},
  address = {Ascona, Switzerland}}}

2017

Binder S., Maknoon Y., Bierlaire M. (2017) Efficient investigation of multiple dimensions of the railway timetable rescheduling problem. Proceedings of the 17th Swiss Transportation Research ConferenceMay 17-19th, Ascona, Switzerland


@InProceedings{Binder_STRC2017_Proceedings,
  author = {Stefan Binder and Yousef Maknoon and Michel Bierlaire},
  title = {Efficient investigation of multiple dimensions of the railway timetable rescheduling problem},
  booktime = {Proceedings of the 17th Swiss Transportation Research Conference, May 17-19th},
  year = {2017},
  address = {Ascona, Switzerland}}}

Fernandez-Antolin A., Lurkin V., de Lapparent M., Bierlaire M. (2017) Discrete-continuous maximum likelihood for the estimation of nested logit models. Proceedings of the 16th Swiss Transport Research Conference (STRC), 17-19 May, Ascona, Switzerland


@InProceedings{FerLurLapBie_STRC2017,
  author = {Anna Fernandez-Antolin and Virginie Lurkin and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Discrete-continuous maximum likelihood for the estimation of nested logit models},
  booktime = {Proceedings of the 16th Swiss Transport Research Conference (STRC), 17-19 May},
  year = {2017},
  address = {Ascona, Switzerland}}}

Markov I., Bierlaire M., Cordeau J., Maknoon Y., Varone S. (2017) A general framework for routing problems with stochastic demands. Proceedings of the 17th Swiss Transport Research Conference (STRC), May, 17-19, Ascona, Switzerland


@InProceedings{Markov_STRC2017,
  author = {Iliya Markov and Michel Bierlaire and Jean-Fran\c{c}ois Cordeau and Yousef Maknoon and Sacha Varone},
  title = {A general framework for routing problems

with stochastic demands},
  booktime = {Proceedings of the 17th Swiss Transport Research Conference (STRC), May, 17-19},
  year = {2017},
  address = {Ascona, Switzerland}}}

Molyneaux N., Scarinci R., Bierlaire M. (2017) Pedestrian management strategies for improving flow dynamics in transportation hubs. Proceedings of the 17th Swiss Transport Research Conference (STRC), 17-19 May, Ascona, Switzerland


@InProceedings{MolScaBie_STRC2017,
  author = {Nicholas Molyneaux and Riccardo Scarinci and Michel Bierlaire},
  title = {Pedestrian management strategies for improving flow dynamics in transportation hubs},
  booktime = {Proceedings of the 17th Swiss Transport Research Conference (STRC), 17-19 May},
  year = {2017},
  address = {Ascona, Switzerland}}}

Nikolic M., Bierlaire M. (2017) Review of transportation mode detection approaches based on smartphone data. Proceedings of the 17th Swiss Transport Research Conference (STRC), May, 17-19, Ascona, Switzerland


@InProceedings{NikBie_STRC2017,
  author = {Marija Nikolic and Michel Bierlaire},
  title = {Review of transportation mode detection approaches based on smartphone data},
  booktime = {Proceedings of the 17th Swiss Transport Research Conference (STRC), May, 17-19},
  year = {2017},
  address = {Ascona, Switzerland}}}

Pacheco M., Sharif Azadeh S., Bierlaire M., Gendron B. (2017) Integrating advanced demand models within the framework of mixed integer linear problems: A Lagrangian relaxation method for the uncapacitated case. Proceedings of the 17th Swiss Transport Research Conference (STRC), 17-19 May, Ascona, Switzerland


@InProceedings{PacShaBieGen_STRC2017,
  author = {Meritxell Pacheco and Shadi {Sharif Azadeh} and Michel Bierlaire and Bernard Gendron},
  title = {Integrating advanced demand models within the framework of mixed integer linear problems: A Lagrangian relaxation method for the uncapacitated case},
  booktime = {Proceedings of the 17th Swiss Transport Research Conference (STRC), 17-19 May},
  year = {2017},
  address = {Ascona, Switzerland}}}

2016

Fernandez-Antolin A., de Lapparent M., Bierlaire M. (2016) Uncovering substitution patterns in new car sales using a cross nested logit model. Proceedings of the 16th Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{FerLapBie_STRC2016,
  author = {Anna Fernandez-Antolin and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Uncovering substitution patterns in new car sales using a cross nested logit model},
  booktime = {Proceedings of the 16th Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2016},
  address = {Ascona, Switzerland}}}

Pacheco M., Sharif Azadeh S., Bierlaire M. (2016) A new mathematical representation of demand using choice-based optimization method. Proceedings of the 16th Swiss Transport Research Conference (STRC), 18-20 May, Ascona, Switzerland


@InProceedings{PacShaBie_STRC2016,
  author = {Meritxell Pacheco and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {A new mathematical representation of demand using choice-based optimization method},
  booktime = {Proceedings of the 16th Swiss Transport Research Conference (STRC), 18-20 May},
  year = {2016},
  address = {Ascona, Switzerland}}}

Wehres U., Sharif Azadeh S., Maknoon Y., Bierlaire M. (2016) Modeling Uncertainty for a Catenary-free Electrical Bus. Proceedings of the 16th Swiss Transportation Research Conference (STRC), May 19-20, 2016, Ascona, Switzerland


@InProceedings{Ulrich_STRC_2016,
  author = {Ulrich Wehres and Shadi {Sharif Azadeh} and Yousef Maknoon and Michel Bierlaire},
  title = {Modeling Uncertainty for a Catenary-free Electrical Bus},
  booktime = {Proceedings of the 16th Swiss Transportation Research Conference (STRC), May 19-20, 2016},
  year = {2016},
  address = {Ascona, Switzerland}}}

2015

Binder S., Maknoon Y., Bierlaire M. (2015) Passenger-oriented railway disposition timetables in case of severe disruptions. Proceedings of the 15th Swiss Transportation Research ConferenceApril 15-17th, Ascona, Switzerland


@InProceedings{Binder_STRC2015_Proceedings,
  author = {Stefan Binder and Yousef Maknoon and Michel Bierlaire},
  title = {Passenger-oriented railway disposition timetables in case of severe disruptions},
  booktime = {Proceedings of the 15th Swiss Transportation Research Conference, April 15-17th},
  year = {2015},
  address = {Ascona, Switzerland}}}

Robenek T., Sharif Azadeh S., Bierlaire M. (2015) Evaluating the Quality of Railway Timetables from Passenger Point of View. Proceedings of the 13th Conference on Advanced Systems in Public Transport (CASPT2015), July 19 - 23, Rotterdam, The Netherlands


@InProceedings{Robenek_CASPT,
  author = {Tom\'a\v{s} Robenek and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {Evaluating the Quality of Railway Timetables from Passenger Point of View},
  booktime = {Proceedings of the 13th Conference on Advanced Systems in Public Transport (CASPT2015), July 19 - 23},
  year = {2015},
  address = {Rotterdam, The Netherlands}}}

Binder S., Maknoon Y., Sharif Azadeh S., Bierlaire M. (2015) Generation and evaluation of passenger-oriented railway disposition timetables in case of severe disruptions. Proceedings of the 6th International Conference on Railway Operations Modelling and Analysis (RailTokyo2015), March 23 � 26, Tokyo, Japan


@InProceedings{Binder_RailTokyo,
  author = {Stefan Binder and Yousef Maknoon and Shadi {Sharif Azadeh} and Michel Bierlaire},
  title = {Generation and evaluation of passenger-oriented railway disposition timetables in case of severe disruptions},
  booktime = {Proceedings of the 6th International Conference on Railway Operations Modelling and Analysis (RailTokyo2015), March 23 {\textendash} 26},
  year = {2015},
  address = {Tokyo, Japan}}}

Robenek T., Sharif Azadeh S., Chen J., Bierlaire M., Maknoon Y. (2015) The Ideal Train Timetabling Problem. Proceedings of the 6th International Conference on Railway Operations Modelling and Analysis (RailTokyo2015), March 23 � 26, Tokyo, Japan


@InProceedings{Robenek_RailTokyo_2015,
  author = {Tom\'a\v{s} Robenek and Shadi {Sharif Azadeh} and {Jiang Hang} Chen and Michel Bierlaire and Yousef Maknoon},
  title = {The Ideal Train Timetabling Problem},
  booktime = {Proceedings of the 6th International Conference on Railway Operations Modelling and Analysis (RailTokyo2015), March 23 {\textendash} 26},
  year = {2015},
  address = {Tokyo, Japan}}}

Baillif M., de Lapparent M., Fernandez-Antolin A., Bierlaire M. (2015) Modeling consideration for electric vehicles and plug-in electric vehicles in car renewal. Proceedings of the 15th Swiss Transportation Research Conference (STRC), April 15-17, Monte Verit�, Ascona, Switzerland


@InProceedings{Baillif_STRC_2015,
  author = {Maurin Baillif and Matthieu {de Lapparent} and Anna Fernandez-Antolin and Michel Bierlaire},
  title = {Modeling consideration for electric vehicles and plug-in electric vehicles in car renewal},
  booktime = {Proceedings of the 15th Swiss Transportation Research Conference (STRC), April 15-17},
  year = {2015},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

Danalet A., Bierlaire M. (2015) Importance sampling for activity path choice. Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17, Monte Verit�, Ascona, Switzerland


@InProceedings{DanBie_STRC2015,
  author = {Antonin Danalet and Michel Bierlaire},
  title = {Importance sampling for activity path choice},
  booktime = {Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17},
  year = {2015},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

Fernandez-Antolin A., Guevara-Cue A., Bierlaire M. (2015) Correcting for endogeneity using the EMIS method: a case study with revealed preference data. Proceedings of the 15th Swiss Transport Research Conference (STRC), 15-17 April, Ascona, Switzerland


@InProceedings{FerStaBie_STRC2015,
  author = {Anna Fernandez-Antolin and Angelo Guevara-Cue and Michel Bierlaire},
  title = {Correcting for endogeneity using the EMIS method: a case study with revealed preference data},
  booktime = {Proceedings of the 15th Swiss Transport Research Conference (STRC), 15-17 April},
  year = {2015},
  address = {Ascona, Switzerland}}}

Hänseler F., Bierlaire M., Molyneaux N., Scarinci R., Thémans M. (2015) Modeling pedestrian flows in train stations: The example of Lausanne railway station. Proceedings of the Swiss Transportation Research Conference (STRC), April 15-17, Ascona, Switzerland


@InProceedings{Flurin_STRC_2015,
  author = {Flurin H\"anseler and Michel Bierlaire and Nicholas Molyneaux and Riccardo Scarinci and Micha\"el Th\'emans},
  title = {Modeling pedestrian flows in train stations: The example of Lausanne railway station},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), April 15-17},
  year = {2015},
  address = {Ascona, Switzerland}}}

Kazagli E., Bierlaire M. (2015) A Route Choice Model based on Mental Representations. Proceedings of the Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17, Monte Verit�, Ascona, Switzerland


@InProceedings{KazBier_STRC15,
  author = {Evanthia Kazagli and Michel Bierlaire},
  title = {A Route Choice Model based on Mental Representations},
  booktime = {Proceedings of the Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17},
  year = {2015},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

Markov I., de Lapparent M., Bierlaire M., Varone S. (2015) Modeling a waste disposal process via a discrete mixture of count data models. Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17, Ascona, Switzerland


@InProceedings{MarLappBierVar_STRC2015,
  author = {Iliya Markov and Matthieu {de Lapparent} and Michel Bierlaire and Sacha Varone},
  title = {Modeling a waste disposal process via a discrete mixture of count data models},
  booktime = {Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17},
  year = {2015},
  address = {Ascona, Switzerland}}}

Nikolic M., Bierlaire M. (2015) Pedestrian flow characterization based on spatio-temporal Voronoi tessellations. Proceedings of the 15th Swiss Transportation Research Conference (STRC), 15 -17 April, Ascona, Switzerland


@InProceedings{NikBie_STRC2015,
  author = {Marija Nikolic and Michel Bierlaire},
  title = {Pedestrian flow characterization based on spatio-temporal Voronoi tessellations},
  booktime = {Proceedings of the 15th Swiss Transportation Research Conference (STRC), 15 -17 April},
  year = {2015},
  address = {Ascona, Switzerland}}}

Robenek T., Maknoon Y., Bierlaire M. (2015) Railway Passenger Service Timetable Design. Proceedings of the 15th Swiss Transportation Research Conference (STRC), 15 -17 April, Ascona, Switzerland


@InProceedings{Robenek_STRC2015,
  author = {Tom\'a\v{s} Robenek and Yousef Maknoon and Michel Bierlaire},
  title = {Railway Passenger Service Timetable Design},
  booktime = {Proceedings of the 15th Swiss Transportation Research Conference (STRC), 15 -17 April},
  year = {2015},
  address = {Ascona, Switzerland}}}

Tinguely L., Danalet A., de Lapparent M., Bierlaire M. (2015) Destination Choice Model including a panel effect using WiFi localization in a pedestrian facility. Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17, Monte Verit�, Ascona, Switzerland


@InProceedings{TDdLB15,
  author = {Lo{\"\i}c Tinguely and Antonin Danalet and Matthieu {de Lapparent} and Michel Bierlaire},
  title = {Destination Choice Model including a panel effect using WiFi localization in a pedestrian facility},
  booktime = {Proceedings of the 15th Swiss Transport Research Conference (STRC), April 15-17},
  year = {2015},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

2014

Binder S., Chen J., Bierlaire M. (2014) Generation and evaluation of passenger-oriented railway disposition timetables. Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May, Ascona, Switzerland


@InProceedings{Binder_STRC2014,
  author = {Stefan Binder and {Jiang Hang} Chen and Michel Bierlaire},
  title = {Generation and evaluation of passenger-oriented railway disposition timetables},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Danalet A., Bierlaire M. (2014) A path choice approach to activity modeling with a pedestrian case study. Proceedings of the 14th Swiss Transport Research Conference (STRC), May 14-16, Monte Verit�, Ascona, Switzerland


@InProceedings{DanBie_STRC2014,
  author = {Antonin Danalet and Michel Bierlaire},
  title = {A path choice approach to activity modeling with a pedestrian case study},
  booktime = {Proceedings of the 14th Swiss Transport Research Conference (STRC), May 14-16},
  year = {2014},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

Fernandez-Antolin A., Stathopoulos A., Bierlaire M. (2014) Exploratory Analysis of Endogeneity in Discrete Choice Models. Proceedings of the 14th Swiss Transport Research Conference (STRC), 14-16 May, Ascona, Switzerland


@InProceedings{FerStaBie_STRC2014,
  author = {Anna Fernandez-Antolin and Amanda Stathopoulos and Michel Bierlaire},
  title = {Exploratory Analysis of Endogeneity in Discrete Choice Models},
  booktime = {Proceedings of the 14th Swiss Transport Research Conference (STRC), 14-16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Glerum A., Frejinger E., Karlstrom A., Beser Hugosson M., Bierlaire M. (2014) A dynamic discrete-continuous choice model for car ownership and usage: Estimation procedure. Proceedings of the 14th Swiss Transport Research Conference (STRC), May 14-16, Ascona, Switzerland


@InProceedings{GlFrKaBeBi_STRC2014,
  author = {Aur\'elie Glerum and Emma Frejinger and Anders Karlstrom and Muriel {Beser Hugosson} and Michel Bierlaire},
  title = {A dynamic discrete-continuous choice model for car ownership and usage: Estimation procedure},
  booktime = {Proceedings of the 14th Swiss Transport Research Conference (STRC), May 14-16},
  year = {2014},
  address = {Ascona, Switzerland}}}

Hänseler F., Molyneaux N., Bierlaire M., Stathopoulos A. (2014) Schedule-based estimation of pedestrian demand within a railway station. Proceedings of the Swiss Transportation Research Conference (STRC), 14-16 May, Ascona, Switzerland


@InProceedings{Haens_STRC_2014,
  author = {Flurin H\"anseler and Nicholas Molyneaux and Michel Bierlaire and Amanda Stathopoulos},
  title = {Schedule-based estimation of pedestrian demand within a railway station},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 14-16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Kazagli E., Bierlaire M. (2014) Revisiting Route Choice Modeling: A Multi-Level Modeling Framework for Route Choice Behavior. Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May, Ascona, Switzerland


@InProceedings{KazBierSTRC14,
  author = {Evanthia Kazagli and Michel Bierlaire},
  title = {Revisiting Route Choice Modeling: A Multi-Level Modeling Framework for Route Choice Behavior},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Markov I., Varone S., Bierlaire M. (2014) Vehicle routing for a complex waste collection problem. Proceedings of the 14th Swiss Transport Research Conference (STRC), May, 14-16, Ascona, Switzerland


@InProceedings{MarVarBier_STRC2014,
  author = {Iliya Markov and Sacha Varone and Michel Bierlaire},
  title = {Vehicle routing for a complex waste collection problem},
  booktime = {Proceedings of the 14th Swiss Transport Research Conference (STRC), May, 14-16},
  year = {2014},
  address = {Ascona, Switzerland}}}

Molyneaux N., Hänseler F., Bierlaire M. (2014) Modelling of train-induced pedestrian flows in railway stations. Proceedings of the Swiss Transportation Research Conference (STRC), 14-16 May, Ascona, Switzerland


@InProceedings{MolHaeBie_STRC_2014,
  author = {Nicholas Molyneaux and Flurin H\"anseler and Michel Bierlaire},
  title = {Modelling of train-induced pedestrian flows in railway stations},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 14-16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Nikolic M., Bierlaire M., Farooq B. (2014) Probabilistic speed-density relationship for pedestrians based on data driven space and time representation. Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May, Ascona, Switzerland


@InProceedings{NikBieFar_STRC2014,
  author = {Marija Nikolic and Michel Bierlaire and Bilal Farooq},
  title = {Probabilistic speed-density relationship for pedestrians based on data driven space and time representation},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Robenek T., Chen J., Bierlaire M. (2014) The Ideal Train Timetabling Problem. Proceedings of the 14th Swiss Transportation Research Conference (STRC), 14 - 16 May, Ascona, Switzerland


@InProceedings{Robenek_STRC2014,
  author = {Tom\'a\v{s} Robenek and {Jiang Hang} Chen and Michel Bierlaire},
  title = {The Ideal Train Timetabling Problem},
  booktime = {Proceedings of the 14th Swiss Transportation Research Conference (STRC), 14 - 16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Scarinci R., Lopez G., Chen J., Bierlaire M. (2014) Optimization of the network design of a futuristic transport system based on moving walkways. Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May, Ascona, Switzerland


@InProceedings{Scarinci2014_STRC,
  author = {Riccardo Scarinci and Guillaume Lopez and {Jiang Hang} Chen and Michel Bierlaire},
  title = {Optimization of the network design of a futuristic transport system based on moving walkways},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 14 - 16 May},
  year = {2014},
  address = {Ascona, Switzerland}}}

Varotto S., Glerum A., Stathopoulos A., Bierlaire M. (2014) Modelling travel time perception in transport mode choices. Proceedings of the 14th Swiss Transport Research Conference (STRC), May 14-16, Ascona, Switzerland


@InProceedings{VarGleStaBie_STRC2014,
  author = {Silvia Varotto and Aur\'elie Glerum and Amanda Stathopoulos and Michel Bierlaire},
  title = {Modelling travel time perception in transport mode choices},
  booktime = {Proceedings of the 14th Swiss Transport Research Conference (STRC), May 14-16},
  year = {2014},
  address = {Ascona, Switzerland}}}

2013

Glerum A., Frejinger E., Karlstrom A., Beser Hugosson M., Bierlaire M. (2013) A dynamic discrete-continuous choice model of car ownership, usage and fuel type. Proceedings of the Second Symposium of the European Association for Research in Transportation (hEART), September 4-6, Stockholm, Sweden


@InProceedings{GlerumEtAl_heart2013,
  author = {Aur\'elie Glerum and Emma Frejinger and Anders Karlstrom and Muriel {Beser Hugosson} and Michel Bierlaire},
  title = {A dynamic discrete-continuous choice model of car ownership, usage and fuel type},
  booktime = {Proceedings of the Second Symposium of the European Association for Research in Transportation (hEART), September 4-6},
  year = {2013},
  address = {Stockholm, Sweden}}}

Glerum A., Frejinger E., Karlstrom A., Beser Hugosson M., Bierlaire M. (2013) Modeling car ownership and usage: a dynamic discrete-continuous choice modeling approach. Proceedings of the Third International Choice Modelling Conference (ICMC), July 3-5, Sydney, Australia


@InProceedings{GlFrKaBeBi_ICMC2013,
  author = {Aur\'elie Glerum and Emma Frejinger and Anders Karlstrom and Muriel {Beser Hugosson} and Michel Bierlaire},
  title = {Modeling car ownership and usage: a dynamic discrete-continuous choice modeling approach},
  booktime = {Proceedings of the Third International Choice Modelling Conference (ICMC), July 3-5},
  year = {2013},
  address = {Sydney, Australia}}}

Atasoy B., Salani M., Bierlaire M. (2013) Integration of explicit supply-demand interactions in airline schedule planning and fleet assignment. Proceedings of the Swiss Transportation Research Conference (STRC), 24-26 April, Ascona, Switzerland


@InProceedings{Atasoy_STRC2013,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {Integration of explicit supply-demand interactions in airline schedule planning and  fleet assignment},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 24-26 April},
  year = {2013},
  address = {Ascona, Switzerland}}}

Chen J., Atasoy B., Robenek T., Bierlaire M., Thémans M. (2013) Planning of feeding station installment for electric urban public mass-transportation system. Proceedings of the 13th Swiss Transportation Research Conference (STRC), 24-26 April, Ascona, Switzerland


@InProceedings{ChenAtasRobeBierThemSTRC2013,
  author = {Jingmin Chen and Bilge Atasoy and Tom\'a\v{s} Robenek and Michel Bierlaire and Micha\"el Th\'emans},
  title = {Planning of feeding station installment for electric urban public mass-transportation system},
  booktime = {Proceedings of the 13th Swiss Transportation Research Conference (STRC), 24-26 April},
  year = {2013},
  address = {Ascona, Switzerland}}}

Danalet A., Farooq B., Bierlaire M. (2013) Towards an activity-based model for pedestrian facilities. Proceedings of the 13th Swiss Transport Research Conference (STRC), April 24-26, Monte Verit�, Ascona, Switerland


@InProceedings{Danalet_Farooq_STRC13v2,
  author = {Antonin Danalet and Bilal Farooq and Michel Bierlaire},
  title = {Towards an activity-based model for pedestrian facilities},
  booktime = {Proceedings of the 13th Swiss Transport Research Conference (STRC), April 24-26},
  year = {2013},
  address = {Monte Verit\`a, Ascona, Switerland}}}

Efthymiou D., Hurtubia R., Bierlaire M., Antoniou C. (2013) The Integrated Land Use and Transport Model of Brussels. Proceedings of the Swiss Transport Research Conference (STRC), April 24-26, Ascona, Switzerland


@InProceedings{EfthymiouSTRC2013a,
  author = {Dimitrios Efthymiou and Ricardo Hurtubia and Michel Bierlaire and Constantinos Antoniou},
  title = {The Integrated Land Use and Transport Model of Brussels},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), April 24-26},
  year = {2013},
  address = {Ascona, Switzerland}}}

Efthymiou D., Farooq B., Bierlaire M., Antoniou C. (2013) Agent Based Indicators Analysis in the Context of Policy Evaluation. Proceedings of the Swiss Transport Research Conference (STRC), April 24-26, Ascona, Switzerland


@InProceedings{EfthymiouSTRC2013b,
  author = {Dimitrios Efthymiou and Bilal Farooq and Michel Bierlaire and Constantinos Antoniou},
  title = {Agent Based Indicators Analysis in the Context of Policy Evaluation},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), April 24-26},
  year = {2013},
  address = {Ascona, Switzerland}}}

Glerum A., Frejinger E., Karlstrom A., Beser Hugosson M., Bierlaire M. (2013) A dynamic discrete-continuous choice model of car ownership and usage: Methodological framework. Proceedings of the 13th Swiss Transport Research Conference (STRC), April 24-26, Ascona, Switzerland


@InProceedings{GlFrKaBeBi_STRC2013,
  author = {Aur\'elie Glerum and Emma Frejinger and Anders Karlstrom and Muriel {Beser Hugosson} and Michel Bierlaire},
  title = {A dynamic discrete-continuous choice model of car ownership and usage: Methodological framework},
  booktime = {Proceedings of the 13th Swiss Transport Research Conference (STRC), April 24-26},
  year = {2013},
  address = {Ascona, Switzerland}}}

Hänseler F., Farooq B., Bierlaire M. (2013) An aggregated dynamic flow model for pedestrian movement in railway stations. Proceedings of the Swiss Transportation Research Conference (STRC), 24-26 April, Ascona, Switzerland


@InProceedings{Haens_STRC_2013,
  author = {Flurin H\"anseler and Bilal Farooq and Michel Bierlaire},
  title = {An aggregated dynamic flow model for pedestrian movement in railway stations},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 24-26 April},
  year = {2013},
  address = {Ascona, Switzerland}}}

Nikolic M., Farooq B., Bierlaire M. (2013) Exploratory analysis of pedestrian flow characteristics in mobility hubs using trajectory data. Proceedings of the Swiss Transportation Research Conference (STRC), 24-26 April, Ascona, Switzerland


@InProceedings{Nikolic_Farooq_Bierlaire_STRC_2013,
  author = {Marija Nikolic and Bilal Farooq and Michel Bierlaire},
  title = {Exploratory analysis of pedestrian flow characteristics in mobility hubs using trajectory data},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), 24-26 April},
  year = {2013},
  address = {Ascona, Switzerland}}}

Robenek T., Chen J., Bierlaire M. (2013) Exploratory Analysis of Demand Interaction in the Planning of Passenger Railway Service. Proceedings of the 13th Swiss Transportation Research Conference (STRC), 24-26 April, Ascona, Switzerland


@InProceedings{Robenek_STRC2013,
  author = {Tom\'a\v{s} Robenek and {Jiang Hang} Chen and Michel Bierlaire},
  title = {Exploratory Analysis of Demand Interaction in the Planning of Passenger Railway Service},
  booktime = {Proceedings of the 13th Swiss Transportation Research Conference (STRC), 24-26 April},
  year = {2013},
  address = {Ascona, Switzerland}}}

Stathopoulos A., Glerum A., Thémans M., Bierlaire M. (2013) Dynamic vehicle ownership forecasting: a framework to model inter-temporal renewal decisions. Proceedings of the Swiss Transportation Research Conference (STRC), April 24-26, Ascona, Switzerland


@InProceedings{StaGleTheBie,
  author = {Amanda Stathopoulos and Aur\'elie Glerum and Micha\"el Th\'emans and Michel Bierlaire},
  title = { Dynamic vehicle ownership forecasting: a framework to model inter-temporal renewal decisions},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), April 24-26},
  year = {2013},
  address = {Ascona, Switzerland}}}

Atasoy B., Salani M., Bierlaire M. (2013) Models and algorithms for integrated airline schedule planning and revenue management. Proceedings of the Eighth Triennial Symposium on Transportation Analysis (TRISTAN VIII), 09-14 June, San Pedro de Atacama, Chile


@InProceedings{Atasoy_TRISTAN2013,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {Models and algorithms for integrated airline schedule planning and revenue management},
  booktime = {Proceedings of the Eighth Triennial Symposium on Transportation Analysis (TRISTAN VIII), 09-14 June},
  year = {2013},
  address = {San Pedro de Atacama, Chile}}}

Glerum A., Frejinger E., Karlstrom A., Beser Hugosson M., Bierlaire M. (2013) Dynamic discrete-continuous choice modeling approach for car use, ownership and fuel type choice based on register data. Proceedings of the Eighth Triennial Symposium on Transportation Analysis (TRISTAN VIII), June 9-14, San Pedro de Atacama, Chile


@InProceedings{GlFrKaBeBi_TRISTAN2013,
  author = {Aur\'elie Glerum and Emma Frejinger and Anders Karlstrom and Muriel {Beser Hugosson} and Michel Bierlaire},
  title = {Dynamic discrete-continuous choice modeling approach for car use, ownership and fuel type choice based on register data},
  booktime = {Proceedings of the Eighth Triennial Symposium on Transportation Analysis (TRISTAN VIII), June 9-14},
  year = {2013},
  address = {San Pedro de Atacama, Chile}}}

2012

Glerum A., Bierlaire M. (2012) The use of word data to measure perception in hybrid choice models. Proceedings of the 13th International Conference on Travel Behavior Research (IATBR), July 15-20, Toronto, Canada


@InProceedings{GleBie_IATBR2012,
  author = {Aur\'elie Glerum and Michel Bierlaire},
  title = {The use of word data to measure perception in hybrid choice models},
  booktime = {Proceedings of the 13th International Conference on Travel Behavior Research (IATBR), July 15-20},
  year = {2012},
  address = {Toronto, Canada}}}

Glerum A., Bierlaire M. (2012) An enhanced measurement model of perception of comfort in public transportation. Proceedings of the 1st European Symposium on Quantitative Methods in Transportation Systems (LATSIS 2012), September 4-7, Lausanne, Switzerland


@InProceedings{GleBie_LATSIS12,
  author = {Aur\'elie Glerum and Michel Bierlaire},
  title = {An enhanced measurement model of perception of comfort in public transportation},
  booktime = {Proceedings of the 1st European Symposium on Quantitative Methods in Transportation Systems (LATSIS 2012), September 4-7},
  year = {2012},
  address = {Lausanne, Switzerland}}}

Atasoy B., Salani M., Bierlaire M. (2012) An integrated fleet assignment and itinerary choice model for a new flexible aircraft. Proceedings of the Swiss Transport Research Conference (STRC), May 2-4, Ascona, Switzerland


@InProceedings{AtaSalBier_STRC2012,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {An integrated fleet assignment and itinerary choice model for a new flexible aircraft},
  booktime = {Proceedings of the  Swiss Transport Research Conference  (STRC), May 2-4},
  year = {2012},
  address = {Ascona, Switzerland}}}

Glerum A., Bierlaire M. (2012) Accounting for response behavior heterogeneity in the measurement of attitudes: an application to demand for electric vehicles. Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4, Ascona, Switzerland


@InProceedings{GleBie_STRC2012,
  author = {Aur\'elie Glerum and Michel Bierlaire},
  title = {Accounting for response behavior heterogeneity in the measurement of attitudes: an application to demand for electric vehicles},
  booktime = {Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4},
  year = {2012},
  address = {Ascona, Switzerland}}}

Hänseler F., Farooq B., Bierlaire M. (2012) Preliminary ideas for dynamic estimation of pedestrian origin-destination demand within train stations. Proceedings of the Swiss Transport Research Conference (STRC), 02.05.2012-04.05.2012, Ascona, Switzerland


@InProceedings{HaeFarBie_STRC_2012,
  author = {Flurin H\"anseler and Bilal Farooq and Michel Bierlaire},
  title = {Preliminary ideas for dynamic estimation of pedestrian origin-destination demand within train stations},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), 02.05.2012-04.05.2012},
  year = {2012},
  address = {Ascona, Switzerland}}}

Hurtubia R., Bierlaire M., Martinez F. (2012) Dynamic microsimulation of location choices with a quasi-equilibrium auction approach. Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4, Ascona, Switzerland


@InProceedings{STRC_2012_HURTUBIA,
  author = {Ricardo Hurtubia and Michel Bierlaire and Francesco Martinez},
  title = {Dynamic microsimulation of location choices with a quasi-equilibrium auction approach},
  booktime = {Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4},
  year = {2012},
  address = {Ascona, Switzerland}}}

Kumar P., Bierlaire M. (2012) Optimizing Locations for a Vehicle Sharing System. Proceedings of the Swiss Transport Research Conference (STRC), 02.05.2012-04.05.2012, Ascona, Switzerland


@InProceedings{Kumar_STRC_2012,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Optimizing Locations for a Vehicle Sharing System},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), 02.05.2012-04.05.2012},
  year = {2012},
  address = {Ascona, Switzerland}}}

Robenek T., Umang N., Bierlaire M. (2012) Integrated Berth Allocation and Yard Assignment in Bulk Ports using Column Generation. Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4, Monte Verita / Ascona, Switzerland


@InProceedings{TomasNitishBierlaire_STRC2012,
  author = {Tom\'a\v{s} Robenek and Nitish Umang and Michel Bierlaire},
  title = {Integrated Berth Allocation and Yard Assignment in Bulk Ports using Column Generation},
  booktime = {Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4},
  year = {2012},
  address = {Monte Verita / Ascona, Switzerland}}}

Sahaleh S., Bierlaire M., Farooq B., Danalet A., Hänseler F. (2012) Scenario Analysis of Pedestrian Flow in Public Spaces. Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4, Monte Verit�, Ascona, Switzerland


@InProceedings{SahBie_STRC_2012,
  author = {Sohrab Sahaleh and Michel Bierlaire and Bilal Farooq and Antonin Danalet and Flurin H\"anseler},
  title = {Scenario Analysis of Pedestrian Flow in Public Spaces},
  booktime = {Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4},
  year = {2012},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

Umang N., Bierlaire M. (2012) Real Time Recovery in Berth Allocation Problem in Bulk Ports. Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4, Monte Verita / Ascona, Switzerland


@InProceedings{NitishBierlaire_STRC2012,
  author = {Nitish Umang and Michel Bierlaire},
  title = {Real Time Recovery in Berth Allocation Problem in Bulk Ports},
  booktime = {Proceedings of the 12th Swiss Transport Research Conference (STRC), May 2-4},
  year = {2012},
  address = {Monte Verita / Ascona, Switzerland}}}

2011

Hurtubia R., Martinez F., Bierlaire M. (2011) Bid auction model for simultaneous determination of location and rent in land use microsimulation models. Proceedings of the XV Congreso Chileno de Ingeniería de TransporteOctober 3 - 6, Santiago, Chile


@InProceedings{Hurt_Chi2011,
  author = {Ricardo Hurtubia and Francesco Martinez and Michel Bierlaire},
  title = {Bid auction model for simultaneous determination of location and rent in land use microsimulation models},
  booktime = {Proceedings of the XV Congreso Chileno de Ingenier{\'\i}a de Transporte, October 3 - 6},
  year = {2011},
  address = {Santiago, Chile}}}

Hurtubia R., Bierlaire M. (2011) Bid rent model for simultaneous determination of location and rent in land use microsimulations. Proceedings of the Swiss Transport Research ConferenceMay 11-13, Ascona, Switzerland


@InProceedings{STRC_2011_HURTUBIA,
  author = {Ricardo Hurtubia and Michel Bierlaire},
  title = {Bid rent model for simultaneous determination of location and rent in land use microsimulations},
  booktime = {Proceedings of the Swiss Transport Research Conference, May 11-13},
  year = {2011},
  address = {Ascona, Switzerland}}}

Atasoy B., Glerum A., Bierlaire M. (2011) Mode choice with attitudinal latent class: a Swiss case-study. Proceedings of the Second International Choice Modeling Conference (ICMC), July 4-6, Leeds, UK


@InProceedings{AtaGleBier_ICMC2011,
  author = {Bilge Atasoy and Aur\'elie Glerum and Michel Bierlaire},
  title = {Mode choice with attitudinal latent class: a Swiss case-study},
  booktime = {Proceedings of the Second International Choice Modeling Conference (ICMC), July 4-6},
  year = {2011},
  address = {Leeds, UK}}}

Glerum A., Atasoy B., Monticone A., Bierlaire M. (2011) Adjectives qualifying individuals' perceptions impacting on transport mode preferences. Proceedings of the Second International Choice Modeling Conference (ICMC), July 4-6, Leeds, UK


@InProceedings{GleAtaMonBie_ICMC2011,
  author = {Aur\'elie Glerum and Bilge Atasoy and Alberto Monticone and Michel Bierlaire},
  title = {Adjectives qualifying individuals' perceptions impacting on transport mode preferences},
  booktime = {Proceedings of the Second International Choice Modeling Conference (ICMC), July 4-6},
  year = {2011},
  address = {Leeds, UK}}}

Glerum A., Thémans M., Bierlaire M. (2011) Modeling demand for electric vehicles: the effect of car users' attitudes and perceptions. Proceedings of the Second International Choice Modeling Conference (ICMC), July 4-6, Leeds, UK


@InProceedings{GleTheBie_ICMC2011,
  author = {Aur\'elie Glerum and Micha\"el Th\'emans and Michel Bierlaire},
  title = {Modeling demand for electric vehicles: the effect of car users' attitudes and perceptions},
  booktime = {Proceedings of the Second International Choice Modeling Conference (ICMC), July 4-6},
  year = {2011},
  address = {Leeds, UK}}}

Kumar P., Bierlaire M. (2011) Generalized Airport Gate Assignment. Proceedings of the International Federations of Operations Research (IFORS), 10-15 July 2011, Melbourne, Australia


@InProceedings{IFORS_2011_Kumar,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Generalized Airport Gate Assignment},
  booktime = {Proceedings of the International Federations of Operations Research (IFORS), 10-15 July 2011},
  year = {2011},
  address = {Melbourne, Australia}}}

Atasoy B., Salani M., Bierlaire M. (2011) Integrated schedule planning with supply-demand interactions for a new generation of aircrafts. Proceedings of the International Conference on Operations Research (OR), August 30 - September 2, Zurich, Switzerland


@InProceedings{Atasoy_OR2011,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {Integrated schedule planning with supply-demand interactions for a new generation of aircrafts},
  booktime = {Proceedings of the International Conference on Operations Research (OR), August 30 - September 2},
  year = {2011},
  address = {Zurich, Switzerland}}}

Kumar P., Bierlaire M. (2011) Experience of Optimizing Fueling Decisions for Locomotives in Railroad Networks. Proceedings of the INTERNATIONAL CONFERENCE OF OPERATIONS RESEARCH (OR2011), 30 AUG - 2 SEP 2011, ZURICH, SWITZERLAND


@InProceedings{Kumar_OR2011,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Experience of Optimizing Fueling Decisions for Locomotives in Railroad Networks},
  booktime = {Proceedings of the INTERNATIONAL CONFERENCE OF OPERATIONS RESEARCH (OR2011), 30 AUG - 2 SEP 2011},
  year = {2011},
  address = {ZURICH, SWITZERLAND}}}

Atasoy B., Salani M., Bierlaire M. (2011) Integrated schedule planning with supply-demand interactions. Proceedings of the 11th Swiss Transport Research Conference (STRC), May 11-13, Ascona, Switzerland


@InProceedings{Atasoy_STRC2011,
  author = {Bilge Atasoy and Matteo Salani and Michel Bierlaire},
  title = {Integrated schedule planning with supply-demand interactions},
  booktime = {Proceedings of the 11th Swiss Transport Research Conference (STRC), May 11-13},
  year = {2011},
  address = {Ascona, Switzerland}}}

Chen J., Bierlaire M., Flötteröd G. (2011) Probabilistic multi-modal map matching with rich smartphone data. Proceedings of the Swiss Transportation Research Conference (STRC), May 11-13, 2011 , Monte Verit�, Ascona , Switzerland


@InProceedings{STRC_2011_CHEN,
  author = {Jingmin Chen and Michel Bierlaire and Gunnar Fl\"otter\"od},
  title = {Probabilistic multi-modal map matching with rich smartphone data},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), May 11-13, 2011	},
  year = {2011},
  address = {Monte Verit\`a, Ascona	, Switzerland}}}

Glerum A., Thémans M., Bierlaire M. (2011) Emergence of electric mobility: a nested approach to vehicle choice modeling. Proceedings of the 11th Swiss Transport Research Conference (STRC), May 11-13, Ascona, Switzerland


@InProceedings{GleTheBie_STRC2011,
  author = {Aur\'elie Glerum and Micha\"el Th\'emans and Michel Bierlaire},
  title = {Emergence of electric mobility: a nested approach to vehicle choice modeling},
  booktime = {Proceedings of the 11th Swiss Transport Research Conference (STRC), May 11-13},
  year = {2011},
  address = {Ascona, Switzerland}}}

Huibregtse O., Flötteröd G., Bierlaire M., Hegyi A., Hoogendoorn S. (2011) Optimization of evacuation instructions as a fixed-point problem. Proceedings of the Swiss Transport Research Conference (STRC), May 11 to 13, Ascona / Monte Verita, Switzerland


@InProceedings{Huibregtse2011,
  author = {Olga Huibregtse and Gunnar Fl\"otter\"od and Michel Bierlaire and Andreas Hegyi and Serge Hoogendoorn},
  title = {Optimization of evacuation instructions as a fixed-point problem},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), May 11 to 13},
  year = {2011},
  address = {Ascona / Monte Verita, Switzerland}}}

Kumar P., Bierlaire M. (2011) Multi-Objective Airport Gate Assignment Problem. Proceedings of the Swiss Transport Research Conference (STRC), 11-13 May 2011, Monte Verita, CH


@InProceedings{KUMAR_STRC_2011,
  author = {Prem Kumar and Michel Bierlaire},
  title = {Multi-Objective Airport Gate Assignment Problem},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), 11-13 May 2011},
  year = {2011},
  address = {Monte Verita, CH}}}

Umang N., Bierlaire M., Vacca I. (2011) The Berth Allocation Problem in Bulk Ports. Proceedings of the 11th Swiss Transport Research Conference (STRC), May 11-13, Monte Verita / Ascona, Switzerland


@InProceedings{Nitish_STRC2011,
  author = {Nitish Umang and Michel Bierlaire and Ilaria Vacca},
  title = {The Berth Allocation Problem in Bulk Ports},
  booktime = {Proceedings of the 11th Swiss Transport Research Conference (STRC), May 11-13},
  year = {2011},
  address = {Monte Verita / Ascona, Switzerland}}}

2010

Hurtubia R., Flötteröd G., Bierlaire M. (2010) Estimation techniques for MEV models with sampling of alternatives. Proceedings of the European Transport ConferenceOctober 11 - 13, Glasgow, Scotland


@InProceedings{Hurt_ETC2010,
  author = {Ricardo Hurtubia and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Estimation techniques for MEV models with sampling of alternatives},
  booktime = {Proceedings of the European Transport Conference, October 11 - 13},
  year = {2010},
  address = {Glasgow, Scotland}}}

Hurtubia R., Martinez F., Flötteröd G., Bierlaire M. (2010) Comparative analysis of hedonic rents and maximum bids in a land-use simulation context. Proceedings of the 10th Swiss Transport Research ConferenceSeptember 1 - 3, 2010, Ascona, Switzerland


@InProceedings{HURTUBIA_STRC_2010,
  author = {Ricardo Hurtubia and Francesco Martinez and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Comparative analysis of hedonic rents and maximum bids in a land-use simulation context},
  booktime = {Proceedings of the 10th Swiss Transport Research Conference, September 1 - 3, 2010},
  year = {2010},
  address = {Ascona, Switzerland}}}

Robin T., Bierlaire M., Cruz J. (2010) Travellers well-being measuring and dynamic facial expression recognition. Proceedings of the World Conference on Transport Research July 11-15, Lisbonne, Portugal


@InProceedings{trobin_WCTR_10,
  author = {Thomas Robin and Michel Bierlaire and Javier Cruz},
  title = {Travellers well-being measuring and dynamic facial expression recognition},
  booktime = {Proceedings of the World Conference on Transport Research , July 11-15},
  year = {2010},
  address = {Lisbonne, Portugal}}}

Osorio C., Flötteröd G., Bierlaire M. (2010) A differentiable dynamic network loading model that yields queue length distributions and accounts for spillback. Proceedings of the International Symposium on Dynamic Traffic Assignment (DTA), July 29-31, Takayama, Japan


@InProceedings{DTA_osoFloBie2010,
  author = {Carolina Osorio and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {A differentiable dynamic network loading model that yields queue length distributions and accounts for spillback},
  booktime = {Proceedings of the International Symposium on Dynamic Traffic Assignment (DTA), July 29-31},
  year = {2010},
  address = {Takayama, Japan}}}

Bierlaire M., Ben-Elia E., Ettema D. (2010) A behavioral departure time choice model with latent arrival time preference and rewards for peak-hour avoidance. Proceedings of the European Transport Conference (ETC), Octover 6-8, 2010, Glasgow, UK


@InProceedings{BierBenEEtte10,
  author = {Michel Bierlaire and Eran Ben-Elia and Dick Ettema},
  title = {A behavioral departure time choice model with latent arrival time preference and rewards for peak-hour avoidance},
  booktime = {Proceedings of the European Transport Conference (ETC), Octover 6-8, 2010},
  year = {2010},
  address = {Glasgow, UK}}}

Fetiarison M., Flötteröd G., Bierlaire M. (2010) Evaluation of pedestrian data collection methods within a simulation framework. Proceedings of the European Transport Conference (ETC), October 11 - 13, Glasgow, Scotland


@InProceedings{FetiFloeBier_ETC2010,
  author = {Mamy Fetiarison and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Evaluation of pedestrian data collection methods within a simulation framework},
  booktime = {Proceedings of the European Transport Conference (ETC), October 11 - 13},
  year = {2010},
  address = {Glasgow, Scotland}}}

Osorio C., Bierlaire M. (2010) Urban traffic control for congested networks: a novel metamodel simulation optimization approach. Proceedings of the Pan-American Conference of Traffic and Transportation Engineering and Logistics (PANAM), July 15-18, Lisbon, Portugal


@InProceedings{osorioPANAM2010,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {Urban traffic control for congested networks: a novel metamodel simulation optimization approach},
  booktime = {Proceedings of the Pan-American Conference of Traffic and Transportation Engineering and Logistics (PANAM), July 15-18},
  year = {2010},
  address = {Lisbon, Portugal}}}

Atasoy B., Glerum A., Hurtubia R., Bierlaire M. (2010) Demand for public transport services: Integrating qualitative and quantitative methods. Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1 - 3, 2010, Ascona, Switzerland


@InProceedings{ATASOY_STRC2010,
  author = {Bilge Atasoy and Aur\'elie Glerum and Ricardo Hurtubia and Michel Bierlaire},
  title = {Demand for public transport services: Integrating qualitative and quantitative methods},
  booktime = {Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1 - 3, 2010},
  year = {2010},
  address = {Ascona, Switzerland}}}

Bierlaire M., Flötteröd G. (2010) Metropolis-Hastings sampling of alternatives for route choice models. Proceedings of the Swiss Transport Research Conference (STRC), September 1-3, Ascona / Monte Verita, Switzerland


@InProceedings{BierFloeSTRC2010,
  author = {Michel Bierlaire and Gunnar Fl\"otter\"od},
  title = {Metropolis-Hastings sampling of alternatives for route choice models},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), September 1-3},
  year = {2010},
  address = {Ascona / Monte Verita, Switzerland}}}

Fetiarison M., Flötteröd G., Bierlaire M. (2010) Evaluation of pedestrian data collection methods within a simulation framework. Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1-3, Ascona, Switzerland


@InProceedings{FetiFloeBier_STRC2010,
  author = {Mamy Fetiarison and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Evaluation of pedestrian data collection methods within a simulation framework},
  booktime = {Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1-3},
  year = {2010},
  address = {Ascona, Switzerland}}}

Kumar P., Bierlaire M., Gallay O. (2010) Generalized Algorithms for Crew Planning: Survey and Future Directions for Railways. Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1-3, 2010, Ascona, Switzerland


@InProceedings{KumarBierGall2010,
  author = {Prem Kumar and Michel Bierlaire and Olivier Gallay},
  title = {Generalized Algorithms for Crew Planning: Survey and Future Directions for Railways},
  booktime = {Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1-3, 2010},
  year = {2010},
  address = {Ascona, Switzerland}}}

Vacca I., Salani M., Bierlaire M. (2010) Optimization of operations in container terminals: hierarchical vs integrated approaches. Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1-3, Ascona, Switzerland


@InProceedings{VaccSalaBier10_STRC,
  author = {Ilaria Vacca and Matteo Salani and Michel Bierlaire},
  title = {Optimization of operations in container terminals: hierarchical vs integrated approaches},
  booktime = {Proceedings of the 10th Swiss Transport Research Conference (STRC), September 1-3},
  year = {2010},
  address = {Ascona, Switzerland}}}

Bierlaire M., Chen J., Newman J. (2010) Using location observations to observe routing for choice models. Proceedings of the 89th Transportation Research Board Annual Meeting (TRB), January 10-14, Washington D.C., US


@InProceedings{trb10bierchennewman,
  author = {Michel Bierlaire and Jingmin Chen and Jeffrey Newman},
  title = {Using location observations to observe routing for choice models},
  booktime = {Proceedings of the 89th Transportation Research Board Annual Meeting (TRB), January 10-14},
  year = {2010},
  address = {Washington D.C., US}}}

Bierlaire M., Hurtubia R., Flötteröd G. (2010) An analysis of the implicit choice set generation using the Constrained Multinomial Logit model. Proceedings of the Transportation Research Board 2010 Annual Meeting (TRB 2010), January 10-14, Washington, D.C., United States


@InProceedings{BierHurtFloe_TRB10,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {An analysis of the implicit choice set generation using the Constrained Multinomial Logit model},
  booktime = {Proceedings of the Transportation Research Board 2010 Annual Meeting (TRB 2010), January 10-14},
  year = {2010},
  address = {Washington, D.C., United States}}}

Osorio C., Bierlaire M. (2010) A simulation-based optimization approach to perform urban traffic control. Proceedings of the Triennial Symposium on Transportation Analysis (TRISTAN VII), June 20-25, Troms�, Norway


@InProceedings{TristanOsorio2010,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A simulation-based optimization approach to perform urban traffic control},
  booktime = {Proceedings of the Triennial Symposium on Transportation Analysis (TRISTAN VII), June 20-25},
  year = {2010},
  address = {Troms{\o}, Norway}}}

Osorio C., Flötteröd G., Bierlaire M. (2010) A differentiable dynamic network loading model that yields queue length distributions and accounts for spillback. Proceedings of the Triennial Symposium on Transportation Analysis (TRISTAN VII), June 20-25, Troms�, Norway


@InProceedings{TristanOsoFloBie2010,
  author = {Carolina Osorio and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {A differentiable dynamic network loading model that yields queue length distributions and accounts for spillback},
  booktime = {Proceedings of the Triennial Symposium on Transportation Analysis (TRISTAN VII), June 20-25},
  year = {2010},
  address = {Troms{\o}, Norway}}}

Osorio C., Bierlaire M. (2010) A simulation-based optimization framework for urban traffic congestion management. Proceedings of the World Conference on Transport Research (WCTR), July 11-15, Lisbon, Portugal


@InProceedings{osorioWCTR2010,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A simulation-based optimization framework for urban traffic congestion management},
  booktime = {Proceedings of the World Conference on Transport Research (WCTR), July 11-15},
  year = {2010},
  address = {Lisbon, Portugal}}}

Hurtubia R., Atasoy B., Glerum A., Curchod A., Bierlaire M. (2010) Considering latent attitudes in mode choice: The case of Switzerland. Proceedings of the World Conference on Transport Research (WCTR 2010), July 11-15, Lisbon, Portugal


@InProceedings{Hurt_WCTR10,
  author = {Ricardo Hurtubia and Bilge Atasoy and Aur\'elie Glerum and Anne Curchod and Michel Bierlaire},
  title = {Considering latent attitudes in mode choice: The case of Switzerland},
  booktime = {Proceedings of the World Conference on Transport Research (WCTR 2010), July 11-15},
  year = {2010},
  address = {Lisbon, Portugal}}}

2009

Bierlaire M., Hurtubia R., Flötteröd G. (2009) An experimental analysis of the implicit choice set generation using the Constrained Multinomial Logit Model. Proceedings of the 4th Kuhmo-Nectar ConferenceJuly 2 - 3, Copenhagen, Denmark


@InProceedings{BieHurFlo_kuhmo2009,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {An experimental analysis of the implicit choice set generation using the Constrained Multinomial Logit Model},
  booktime = {Proceedings of the 4th Kuhmo-Nectar Conference, July 2 - 3},
  year = {2009},
  address = {Copenhagen, Denmark}}}

Osorio C., Bierlaire M. (2009) A metamodel approach for simulation optimization of congested urban road networks. Proceedings of the 6th Computational Management Science Conference (CMS), May 1-3, Geneva, Switzerland


@InProceedings{osoCMS,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A metamodel approach for simulation optimization of congested urban road networks},
  booktime = {Proceedings of the 6th Computational Management Science Conference (CMS), May 1-3},
  year = {2009},
  address = {Geneva, Switzerland}}}

Flötteröd G., Bierlaire M. (2009) Improved estimation of travel demand from traffic counts by a new linearization of the network loading map. Proceedings of the European Transport Conference (ETC), October 5-7, , Netherlands


@InProceedings{ETC2009FloBier,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Improved estimation of travel demand from traffic counts by a new linearization of the network loading map},
  booktime = {Proceedings of the European Transport Conference (ETC), October 5-7},
  year = {2009},
  address = {, Netherlands}}}

Hurtubia R., Flötteröd G., Bierlaire M. (2009) Inferring the activities of smartphone users from context measurements using Bayesian inference and random utility models. Proceedings of the European Transport Conference (ETC), October 5 - 7, , The Netherlands


@InProceedings{HurFloBier_ETC2009,
  author = {Ricardo Hurtubia and Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Inferring the activities of smartphone users from context measurements using Bayesian inference and random utility models},
  booktime = {Proceedings of the European Transport Conference (ETC), October 5 - 7},
  year = {2009},
  address = {, The Netherlands}}}

Newman J., Chen J., Bierlaire M. (2009) Generating probabilistic path observation from GPS data for route choice modeling. Proceedings of the European Transport Conference (ETC), 5-7 October 2009, , The Netherlands


@InProceedings{etcnewchenbier09,
  author = {Jeffrey Newman and Jingmin Chen and Michel Bierlaire},
  title = {Generating probabilistic path observation from GPS data for route choice modeling},
  booktime = {Proceedings of the European Transport Conference (ETC), 5-7 October 2009},
  year = {2009},
  address = {, The Netherlands}}}

Osorio C., Bierlaire M. (2009) A multi-model algorithm for the optimization of congested networks. Proceedings of the European Transport Conference (ETC), 5-7 October 2009, Noordwijkerhout, Netherlands


@InProceedings{osorioETC09,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A multi-model algorithm for the optimization of congested networks},
  booktime = {Proceedings of the European Transport Conference (ETC), 5-7 October 2009},
  year = {2009},
  address = {Noordwijkerhout, Netherlands}}}

Chen J., Newman J., Bierlaire M. (2009) Modeling Route Choice Behavior From Smart-phone GPS data. Proceedings of the The 12th International Conference on Travel Behaviour Research (IATBR), December 13-18, 2009, Jaipur, India


@InProceedings{CHEN09_IATBR,
  author = {Jingmin Chen and Jeffrey Newman and Michel Bierlaire},
  title = {Modeling Route Choice Behavior From Smart-phone GPS data},
  booktime = {Proceedings of the The 12th International Conference on Travel Behaviour Research (IATBR), December 13-18, 2009},
  year = {2009},
  address = {Jaipur, India}}}

Bierlaire M., Fetiarison M. (2009) Estimation of discrete choice models: extending BIOGEME. Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9 - 11, Ascona, Switzerland


@InProceedings{BierFetiSTRC09,
  author = {Michel Bierlaire and Mamy Fetiarison},
  title = {Estimation of discrete choice models: extending BIOGEME},
  booktime = {Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9 - 11},
  year = {2009},
  address = {Ascona, Switzerland}}}

Bierlaire M., Hurtubia R., Flötteröd G. (2009) A comparative analysis of implicit and explicit methods to model choice set generation. Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9 - 11, Ascona, Switzerland


@InProceedings{BIE_HUR_FLO_STRC2009,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {A comparative analysis of implicit and explicit methods to model choice set generation},
  booktime = {Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9 - 11},
  year = {2009},
  address = {Ascona, Switzerland}}}

Bierlaire M., Newman J., Chen J. (2009) A method of probabilistic map distribution of path likelihood. Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9 - 11, Ascona, Switzerland


@InProceedings{strc09chen,
  author = {Michel Bierlaire and Jeffrey Newman and Jingmin Chen},
  title = {A method of probabilistic map distribution of path likelihood},
  booktime = {Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9 - 11},
  year = {2009},
  address = {Ascona, Switzerland}}}

Osorio C., Bierlaire M. (2009) A simulation optimization framework for the management of congested urban road networks. Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9-11, Monte Verita, Ascona, Switzerland


@InProceedings{osoSTRC09,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A simulation optimization framework for the management of congested urban road networks},
  booktime = {Proceedings of the 9th Swiss Transport Research Conference (STRC), September 9-11},
  year = {2009},
  address = {Monte Verita, Ascona, Switzerland}}}

Robin T., Bierlaire M., Cruz J. (2009) Dynamic facial expression recognition using a behavioural model. Proceedings of the the 9th Swiss Transport Research Conference (STRC), September 9 - 11, 2009, Ascona, Switzerland


@InProceedings{Robin_STRC09,
  author = {Thomas Robin and Michel Bierlaire and Javier Cruz},
  title = {Dynamic facial expression recognition using a behavioural model},
  booktime = {Proceedings of the the 9th Swiss Transport Research Conference  (STRC), September 9 - 11, 2009},
  year = {2009},
  address = {Ascona, Switzerland}}}

2008

Alahi A., Vandergheynst P., Bierlaire M., Kunt M. (2008) Object Detection and Matching in a Mixed Network of Fixed and Mobile Cameras. Proceedings of the ACM International Conference on MultimediaOctober 31, 2008, Vancouver, Canada


@InProceedings{AlahVandBierKunt08,
  author = {Alexandre Alahi and Pierre Vandergheynst and Michel Bierlaire and Murat Kunt},
  title = {Object Detection and Matching in a Mixed Network of Fixed and Mobile Cameras},
  booktime = {Proceedings of the ACM International Conference on Multimedia, October 31, 2008},
  year = {2008},
  address = {Vancouver, Canada}}}

Alahi A., Marimon D., Bierlaire M., Kunt M. (2008) A Master-Slave Approach for Object Detection and Matching with Fixed and Mobile Cameras. Proceedings of the 15th IEEE International Conference on Image ProcessingOctober 12-15, 2008, San Diego, USA


@InProceedings{AlahMariBierKunt08,
  author = {Alexandre Alahi and David Marimon and Michel Bierlaire and Murat Kunt},
  title = {A Master-Slave Approach for Object Detection and Matching with Fixed and Mobile Cameras},
  booktime = {Proceedings of the 15th IEEE International Conference on Image Processing, October 12-15, 2008},
  year = {2008},
  address = {San Diego, USA}}}

Osorio C., Bierlaire M. (2008) A queueing network approach to the traffic signal optimization of the Lausanne city center. Proceedings of the Latin-Ibero-American Conference on Operations Research (CLAIO), September 9-12, Cartagena, Colombia


@InProceedings{osorioCLAIO08,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A queueing network approach to the traffic signal optimization of the Lausanne city center},
  booktime = {Proceedings of the Latin-Ibero-American Conference on Operations Research (CLAIO), September 9-12},
  year = {2008},
  address = {Cartagena, Colombia}}}

Alahi A., Bierlaire M., Kunt M. (2008) Object Detection and Matching with Mobile Cameras Collaborating with Fixed Cameras. Proceedings of the European Conference on Computer Vision (ECCV), October 18, 2008, Marseille, France


@InProceedings{AlahBierKunt08,
  author = {Alexandre Alahi and Michel Bierlaire and Murat Kunt},
  title = {Object Detection and Matching with Mobile Cameras Collaborating with Fixed Cameras},
  booktime = {Proceedings of the European Conference on Computer Vision (ECCV), October 18, 2008},
  year = {2008},
  address = {Marseille, France}}}

Abou-Zeid M., Ben-Akiva M., Bierlaire M. (2008) Happiness and travel behavior modification. Proceedings of the European Transport Conference (ETC), October 6-8, 2008, Leiden, The Netherlands


@InProceedings{AbouBenABier08,
  author = {Maya Abou-Zeid and Moshe Ben-Akiva and Michel Bierlaire},
  title = {Happiness and travel behavior modification},
  booktime = {Proceedings of the European Transport Conference (ETC), October 6-8, 2008},
  year = {2008},
  address = {Leiden, The Netherlands}}}

Osorio C., Bierlaire M. (2008) Network performance optimization using a queueing network model. Proceedings of the European Transport Conference (ETC), October 6-8, Noordwijkerhout, Netherlands


@InProceedings{osoETC08,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {Network performance optimization using a queueing network model},
  booktime = {Proceedings of the European Transport Conference (ETC), October 6-8},
  year = {2008},
  address = {Noordwijkerhout, Netherlands}}}

Robin T., Antonini G., Bierlaire M., Cruz J. (2008) Specification, estimation and validation of a pedestrian walking behaviour model. Proceedings of the European Transportation Research Conference (ETC), October 6-8, , Netherlands


@InProceedings{RobAntBieCru_ETC08,
  author = {Thomas Robin and Gianluca Antonini and Michel Bierlaire and Javier Cruz},
  title = {Specification, estimation and validation of a pedestrian walking behaviour model},
  booktime = {Proceedings of the European Transportation Research Conference (ETC), October 6-8},
  year = {2008},
  address = {, Netherlands}}}

Sorci M., Antonini G., Cerretani B., Cruz J., Robin T., Bierlaire M., Thiran J. (2008) Modelling human perception of static facial expressions. Proceedings of the 8th IEEE International Conference on Automatic Face and Gesture Recognition (FG2008), September 17-19, Amsterdam, The Netherlands


@InProceedings{SorciAntoCerCruzRobinBierThiran2008,
  author = {Matteo Sorci and Gianluca Antonini and Barbara Cerretani and Javier Cruz and Thomas Robin and Michel Bierlaire and Jean-Philippe Thiran},
  title = {Modelling human perception of static facial expressions},
  booktime = {Proceedings of the 8th IEEE International Conference on Automatic Face and Gesture Recognition (FG2008), September 17-19},
  year = {2008},
  address = {Amsterdam, The Netherlands}}}

Osorio C., Bierlaire M. (2008) Signal control optimization with a queueing network model capturing congestion. Proceedings of the Pan-American Conference on Traffic and Transportation Engineering (PANAM), September 14-17, Cartagena, Colombia


@InProceedings{osorioPANAM08,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {Signal control optimization with a queueing network model capturing congestion},
  booktime = {Proceedings of the Pan-American Conference on Traffic and Transportation Engineering (PANAM), September 14-17},
  year = {2008},
  address = {Cartagena, Colombia}}}

Eggenberg N., Salani M., Bierlaire M. (2008) Optimization of Uncertainty Features for Transportation Problems. Proceedings of the Swiss Transportation Research Conference (STRC), October 15-17, Monte Verit�, Ascona, Switzerland


@InProceedings{EggSalBier_STRC08,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Optimization of Uncertainty Features for Transportation Problems},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), October 15-17},
  year = {2008},
  address = {Monte Verit\`a, Ascona, Switzerland}}}

Osorio C., Bierlaire M. (2008) A multiple model approach for traffic signal optimization in the city of Lausanne. Proceedings of the Swiss Transport Research Conference (STRC), October 15-17, Monte Verita, Ascona, Switzerland


@InProceedings{oso_strc08,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {A multiple model approach for traffic signal optimization in the city of Lausanne},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), October 15-17},
  year = {2008},
  address = {Monte Verita, Ascona, Switzerland}}}

Vacca I., Salani M., Bierlaire M. (2008) Two-stage column generation and applications in container terminal management. Proceedings of the 8th Swiss Transport Research Conference (STRC), October 15-17, Ascona, Switzerland


@InProceedings{VaccSalaBier08_STRC,
  author = {Ilaria Vacca and Matteo Salani and Michel Bierlaire},
  title = {Two-stage column generation and applications in container terminal management},
  booktime = {Proceedings of the 8th Swiss Transport Research Conference (STRC), October 15-17},
  year = {2008},
  address = {Ascona, Switzerland}}}

2007

Fosgerau M., Bierlaire M. (2007) Discrete choice models with multiplicative error terms. Proceedings of the European Transport Conference (ETC), October 17-19, 2007, Leiden, The Netherlands


@InProceedings{FosgBier07,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Discrete choice models with multiplicative error terms},
  booktime = {Proceedings of the European Transport Conference (ETC), October 17-19, 2007},
  year = {2007},
  address = {Leiden, The Netherlands}}}

Bierlaire M., Thémans M., Zufferey N. (2007) Nonlinear global optimization relevant to discrete choice models estimation. Proceedings of the 7th Swiss Transport Research Conference (STRC), 12-14 September 2007, Ascona, Switzerland


@InProceedings{BierThemZuff07-STRC,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {Nonlinear global optimization relevant to discrete choice models estimation},
  booktime = {Proceedings of the 7th Swiss Transport Research Conference (STRC), 12-14 September 2007},
  year = {2007},
  address = {Ascona, Switzerland}}}

Eggenberg N., Salani M., Bierlaire M. (2007) Robust Optimization with Recovery: Application to Shortest Paths and Airline Scheduling. Proceedings of the Swiss Transport Research Conference (STRC), September 12-14, Monte Verit�, Switzerland


@InProceedings{NEg_STRC_2007,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Robust Optimization with Recovery: Application to Shortest Paths and Airline Scheduling},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), September 12-14},
  year = {2007},
  address = {Monte Verit\`a, Switzerland}}}

Frejinger E., Bierlaire M. (2007) Random Sampling of Alternatives for Route Choice Modeling. Proceedings of the Swiss Transport Research Conference (STRC), September 12-14, Ascona, Switzerland


@InProceedings{FrejBier07_STRC,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Random Sampling of Alternatives for Route Choice Modeling},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), September 12-14},
  year = {2007},
  address = {Ascona, Switzerland}}}

Leyvraz J., Bierlaire M., Paulus P. (2007) Tools to evaluate future actions on the traffic in Lausanne. Proceedings of the 7th Swiss Transport Research Conference (STRC), September 12-14.2007, Ascona, Switzerland


@InProceedings{LeyvBierPaul07,
  author = {Jean-Pierre Leyvraz and Michel Bierlaire and Patrick Paulus},
  title = {Tools to evaluate future actions on the traffic in Lausanne},
  booktime = {Proceedings of the 7th Swiss Transport Research Conference (STRC), September 12-14.2007},
  year = {2007},
  address = {Ascona, Switzerland}}}

Osorio C., Bierlaire M. (2007) Describing network congestion and blocking with an analytic queueing network model. Proceedings of the Swiss Transport Research Conference (STRC), September 12-14, Ascona, Switzerland


@InProceedings{OsoBierSTRC07,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {Describing network congestion and blocking with an analytic queueing network model},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), September 12-14},
  year = {2007},
  address = {Ascona, Switzerland}}}

Patterson Z., Bierlaire M. (2007) An UrbanSim Model of Brussels in a Short Timeline. Proceedings of the Swiss Transport Research Conference (STRC), 12-14 September, Monte Verita, Switzerland


@InProceedings{PattersonBierlaire2007a,
  author = {Zachary Patterson and Michel Bierlaire},
  title = {An UrbanSim Model of Brussels in a Short Timeline},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), 12-14 September},
  year = {2007},
  address = {Monte Verita, Switzerland}}}

Vacca I., Bierlaire M., Salani M. (2007) Optimization at Container Terminals: Status, Trends and Perspectives. Proceedings of the Swiss Transport Research Conference (STRC), September 12-14, Ascona, Switzerland


@InProceedings{VaccBierSala07,
  author = {Ilaria Vacca and Michel Bierlaire and Matteo Salani},
  title = {Optimization at Container Terminals: Status, Trends and Perspectives},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), September 12-14},
  year = {2007},
  address = {Ascona, Switzerland}}}

Bierlaire M., Eggenberg N., Salani M. (2007) Column generation methods for disrupted airline schedules. Proceedings of the Proceedings of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN), June 10-15, Phuket, Thailand


@InProceedings{BierEggeSala07,
  author = {Michel Bierlaire and Niklaus Eggenberg and Matteo Salani},
  title = {Column generation methods for disrupted airline schedules},
  booktime = {Proceedings of the Proceedings of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN), June 10-15},
  year = {2007},
  address = {Phuket, Thailand}}}

Bierlaire M., Thémans M., Zufferey N. (2007) A heuristic for nonlinear global optimization relevant to discrete choice models estimation. Proceedings of the of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN) (TRISTAN), June 10-15, Phuket Island, Thailand


@InProceedings{BierThemZuff07a,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {A heuristic for nonlinear global optimization relevant to discrete choice models estimation},
  booktime = {Proceedings of the of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN) (TRISTAN), June 10-15},
  year = {2007},
  address = {Phuket Island, Thailand}}}

Frejinger E., Bierlaire M. (2007) Stochastic Path Generation Algorithm for Route Choice Models. Proceedings of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN), June 10-15, Phuket Island, Thailand


@InProceedings{FrejBier07a,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Stochastic Path Generation Algorithm for Route Choice Models},
  booktime = {Proceedings of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN), June 10-15},
  year = {2007},
  address = {Phuket Island, Thailand}}}

Osorio C., Bierlaire M. (2007) An Analytic Finite Capacity Queueing Network Model Capturing Congestion and Spillbacks. Proceedings of the Proceedings of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN), June 10-15, Phuket, Thailand


@InProceedings{OsoBier07,
  author = {Carolina Osorio and Michel Bierlaire},
  title = {An Analytic Finite Capacity Queueing Network Model Capturing Congestion and Spillbacks},
  booktime = {Proceedings of the Proceedings of the Sixth Triennial Symposium on Transportation Analysis (TRISTAN), June 10-15},
  year = {2007},
  address = {Phuket, Thailand}}}

2006

Spassov I., Bierlaire M., Merminod B. (2006) Map-matching for pedestrians via Bayesian inference. Proceedings of the European Navigation Conference (ENC), May 7-10, 2006, Manchester, United Kingdom


@InProceedings{SpasBierMerm06b,
  author = {Ivan Spassov and Michel Bierlaire and Bertrand Merminod},
  title = {Map-matching for pedestrians via Bayesian inference},
  booktime = {Proceedings of the European Navigation Conference (ENC), May 7-10, 2006},
  year = {2006},
  address = {Manchester, United Kingdom}}}

Bierlaire M., Frejinger E., Stojanovic J. (2006) A latent route choice model in Switzerland. Proceedings of the European Transport Conference (ETC), September 18-20, Strasbourg, France


@InProceedings{BierFrejStoj06,
  author = {Michel Bierlaire and Emma Frejinger and Jelena Stojanovic},
  title = {A latent route choice model in Switzerland},
  booktime = {Proceedings of the European Transport Conference (ETC), September 18-20},
  year = {2006},
  address = {Strasbourg, France}}}

Frejinger E., Bierlaire M. (2006) Capturing correlation with subnetworks in route choice models. Proceedings of the 11th International Conference on Travel Behaviour Research (IATBR), August 16-20, Kyoto, Japan


@InProceedings{FrejBier06b,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Capturing correlation with subnetworks in route choice models},
  booktime = {Proceedings of the 11th International Conference on Travel Behaviour Research (IATBR), August 16-20},
  year = {2006},
  address = {Kyoto, Japan}}}

Spassov I., Bierlaire M., Merminod B. (2006) Bayesian Inference for Autonomous Personal Localisation Indoors. Proceedings of the International Symposium of Transport Simulation (ISTS), September 4-6, Lausanne, Switzerland


@InProceedings{SpasBierMerm06c,
  author = {Ivan Spassov and Michel Bierlaire and Bertrand Merminod},
  title = {Bayesian Inference for Autonomous Personal Localisation Indoors},
  booktime = {Proceedings of the International Symposium of Transport Simulation (ISTS), September 4-6},
  year = {2006},
  address = {Lausanne, Switzerland}}}

Antonini G., Bierlaire M. (2006) Capturing interactions in pedestrian walking behavior in a discrete choice framework. Proceedings of the 6th Swiss Transport Research Conference (STRC), March 15-17, Ascona, Switzerland


@InProceedings{AntoBierl06,
  author = {Gianluca Antonini and Michel Bierlaire},
  title = {Capturing interactions in pedestrian walking behavior in a discrete choice framework},
  booktime = {Proceedings of the 6th Swiss Transport Research Conference (STRC), March 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

Fosgerau M., Bierlaire M. (2006) A practical test for the choice of mixing distribution in discrete choice models. Proceedings of the Swiss Transport Research Conference (STRC), March, 15-17, Ascona, Switzerland


@InProceedings{FosgBier06,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {A practical test for the choice of mixing distribution in discrete choice models},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

Frejinger E., Bierlaire M. (2006) Capturing Correlation in Route Choice Models using Subnetworks. Proceedings of the Swiss Transport Research Conference (STRC), March 15-17, Ascona, Switzerland


@InProceedings{FrejBier06a,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Capturing Correlation in Route Choice Models using Subnetworks},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

Hess S., Polak J., Bierlaire M. (2006) Confounding between substitution patterns and random taste heterogeneity. Proceedings of the 6th Swiss Transport Research Conference (STRC), March 15-17, Ascona, Switzerland


@InProceedings{HessPolaBier06,
  author = {Stephane Hess and John Polak and Michel Bierlaire},
  title = {Confounding between substitution patterns and random taste heterogeneity},
  booktime = {Proceedings of the 6th Swiss Transport Research Conference (STRC), March 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2006) Discrete mixture Models. Proceedings of the Swiss Transport Research Conference (STRC), March 15-17, Ascona, Switzerland


@InProceedings{HessBierPola06,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Discrete mixture Models},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

Spassov I., Bierlaire M., Merminod B. (2006) Bayesian Approach for Indoor Pedestrian Localisation. Proceedings of the Swiss Transport Research Conference (STRC), March 15-17, Ascona, Switzerland


@InProceedings{SpasBierMerm06,
  author = {Ivan Spassov and Michel Bierlaire and Bertrand Merminod},
  title = {Bayesian Approach for Indoor Pedestrian Localisation},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

Thémans M., Bierlaire M. (2006) Solving singularity issues in the estimation of econometric models. Proceedings of the Swiss Transport Research Conference (STRC), March, 15-17, Ascona, Switzerland


@InProceedings{ThemBier06,
  author = {Micha\"el Th\'emans and Michel Bierlaire},
  title = {Solving singularity issues in the estimation of econometric models},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 15-17},
  year = {2006},
  address = {Ascona, Switzerland}}}

2005

Abbe E., Bierlaire M., Toledo T. (2005) Normalization and correlation of cross-nested logit models. Proceedings of the European Transport Conference (ETC), October 3-5, Strasbourg, France


@InProceedings{AbbeBierTole05-etc,
  author = {Emmanuel Abbe and Michel Bierlaire and Tomer Toledo},
  title = {Normalization and correlation of cross-nested logit models},
  booktime = {Proceedings of the European Transport Conference (ETC), October 3-5},
  year = {2005},
  address = {Strasbourg, France}}}

Bierlaire M., Thémans M. (2005) Algorithmic developments for the estimate of advanced discrete choice models. Proceedings of the 5th Swiss Transportation Research Conference (STRC), March 09-13, Ascona, Switzerland


@InProceedings{BierThem05a,
  author = {Michel Bierlaire and Micha\"el Th\'emans},
  title = {Algorithmic developments for the estimate of advanced discrete choice models},
  booktime = {Proceedings of the 5th Swiss Transportation Research Conference (STRC), March 09-13},
  year = {2005},
  address = {Ascona, Switzerland}}}

Bierlaire M., Frejinger E. (2005) Route choice models with subpath components. Proceedings of the Swiss Transportation Research Conference (STRC), March, 09-13, Ascona, Switzerland


@InProceedings{BierFrej05,
  author = {Michel Bierlaire and Emma Frejinger},
  title = {Route choice models with subpath components},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), March, 09-13},
  year = {2005},
  address = {Ascona, Switzerland}}}

Bierlaire M., Thémans M. (2005) Development of Swiss models for transportation demand prediction in response to real-time traffic information. Proceedings of the Swiss Transport Research Conference (STRC), March, 09-11, Ascona, Switzerland


@InProceedings{BierThem05b,
  author = {Michel Bierlaire and Micha\"el Th\'emans},
  title = {Development of Swiss models for transportation demand prediction in response to real-time traffic information},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 09-11},
  year = {2005},
  address = {Ascona, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2005) Mixed GEV modelling of mode-choice. Proceedings of the Swiss Transportation Research Conference (STRC), March, 09-13, Ascona, Switzerland


@InProceedings{HessBierPola05,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Mixed GEV modelling of mode-choice},
  booktime = {Proceedings of the Swiss Transportation Research Conference (STRC), March, 09-13},
  year = {2005},
  address = {Ascona, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2005) Interpretation of counter-intuitively signed value of travel-time saving estimates. Proceedings of the Swiss Transport Research Conference (STRC), March, 09-11, Ascona, Switzerland


@InProceedings{HessBierPola05b,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Interpretation of counter-intuitively signed value of travel-time saving estimates},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 09-11},
  year = {2005},
  address = {Ascona, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2005) Discrete mixtures of GEV models. Proceedings of the Swiss Transport Research Conference (STRC), March, 09-11, Ascona, Switzerland


@InProceedings{HessBierPola05c,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Discrete mixtures of GEV models},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 09-11},
  year = {2005},
  address = {Ascona, Switzerland}}}

Hess S., Bierlaire M., Polak J. (2005) Capturing taste heterogeneity and correlation structure with mixed GEV models. Proceedings of the 8th Annual Meeting of the Transportation Research Board (TRB), January, 9-13, Washington (DC), USA


@InProceedings{HessBierPola05d,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Capturing taste heterogeneity and correlation structure with mixed GEV models},
  booktime = {Proceedings of the 8th Annual Meeting of the Transportation Research Board (TRB), January, 9-13},
  year = {2005},
  address = {Washington (DC), USA}}}

Hess S., Bierlaire M., Polak J. (2005) Estimation of value of travel-time saving using mixed logit models. Proceedings of the 84th annual Meeting of the Transportation Research Board (TRB), January, 09-13, Washington (DC), USA


@InProceedings{HessBierPola05e,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Estimation of value of travel-time saving using mixed logit models},
  booktime = {Proceedings of the 84th annual Meeting of the Transportation Research Board (TRB), January, 09-13},
  year = {2005},
  address = {Washington (DC), USA}}}

2004

Antonini G., Venegas S., Thiran J., Bierlaire M. (2004) A discrete choice pedestrian behavior model for pedestrian detection in visual tracking systems. Proceedings of the Advanced Concepts for Intelligent Vision Systems (ACIVS), August 31 - Sept. 03, Brussels, Belgium


@InProceedings{AntoVeneThirBier04,
  author = {Gianluca Antonini and Santiago Venegas and Jean-Philippe Thiran and Michel Bierlaire},
  title = {A discrete choice pedestrian behavior model for pedestrian detection in visual tracking systems},
  booktime = {Proceedings of the Advanced Concepts for Intelligent Vision Systems (ACIVS), August 31 - Sept. 03},
  year = {2004},
  address = {Brussels, Belgium}}}

Axhausen K., Koenig A., Abay G., Bates J., Bierlaire M. (2004) Swiss value of travel Time Savings. Proceedings of the European Transport Conference (ETC), October 04-06, Strasbourg, France


@InProceedings{AxhaK�niAbayBateBier04,
  author = {Kay Axhausen and Arnd Koenig and Georg Abay and John Bates and Michel Bierlaire},
  title = {Swiss value of travel Time Savings},
  booktime = {Proceedings of the European Transport Conference (ETC), October 04-06},
  year = {2004},
  address = {Strasbourg, France}}}

Hess S., Bierlaire M., Polak J. (2004) Development and application of a mixed cross-nested logit model. Proceedings of the XXIth European Transport Conference (ETC), October, 04-06, Strasbourg, France


@InProceedings{HessBierPola04,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Development and application of a mixed cross-nested logit model},
  booktime = {Proceedings of the XXIth European Transport Conference (ETC), October, 04-06},
  year = {2004},
  address = {Strasbourg, France}}}

Venegas S., Antonini G., Thiran J., Bierlaire M. (2004) Bayesian Integration of a discrete Choice Pedestrian Behavioral Model and Image Correlation Techniques for Automatic Multi Object Tracking. Proceedings of the International Conference on Image Processing (IEEE), October, 24-27, Singapore, Singapore


@InProceedings{VeneAntoThirBier04,
  author = {Santiago Venegas and Gianluca Antonini and Jean-Philippe Thiran and Michel Bierlaire},
  title = {Bayesian Integration of a discrete Choice Pedestrian Behavioral Model and Image Correlation Techniques for Automatic Multi Object Tracking},
  booktime = {Proceedings of the International Conference on Image Processing (IEEE), October, 24-27},
  year = {2004},
  address = {Singapore, Singapore}}}

Antonini G., Bierlaire M., Weber M. (2004) Simulation of Pedestrian Behaviour using a Discrete Choice Model Calibrated on Actual Motion Data. Proceedings of the Swiss Transport Research Conference (STRC), March 24-26, Ascona, Switzerland


@InProceedings{AntoBierWebe04,
  author = {Gianluca Antonini and Michel Bierlaire and Mats Weber},
  title = {Simulation of Pedestrian Behaviour using a Discrete Choice Model Calibrated on Actual Motion Data},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March 24-26},
  year = {2004},
  address = {Ascona, Switzerland}}}

Hess S., Polak J., Bierlaire M. (2004) Development of a mixed cross-nested logit model with an application to mode choice modelling. Proceedings of the 10th triennial World Conference on Transportation Research (WCTR), July, 04-08, Istambul, Turkey


@InProceedings{HessPolaBier04,
  author = {Stephane Hess and John Polak and Michel Bierlaire},
  title = {Development of a mixed cross-nested logit model with an application to mode choice modelling},
  booktime = {Proceedings of the 10th triennial World Conference on Transportation Research (WCTR), July, 04-08},
  year = {2004},
  address = {Istambul, Turkey}}}

2003

Bierlaire M. (2003) BIOGEME: a free package for the estimation of discrete choice models. Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21, Ascona, Switzerland


@InProceedings{Bier03,
  author = {Michel Bierlaire},
  title = {BIOGEME: a free package for the estimation of discrete choice models},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21},
  year = {2003},
  address = {Ascona, Switzerland}}}

Crittin F., Bierlaire M. (2003) Solving the anticipatory route guidance generation problem using a generalization of secant methods. Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21, Ascona, Switzerland


@InProceedings{CritBier03b,
  author = {Frank Crittin and Michel Bierlaire},
  title = {Solving the anticipatory route guidance generation problem using a generalization of secant methods},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21},
  year = {2003},
  address = {Ascona, Switzerland}}}

Crittin F., Bierlaire M. (2003) A generalization of secant methods for solving nonlinear systems of equations. Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21, Ascona, Switzerland


@InProceedings{CritBier03a,
  author = {Frank Crittin and Michel Bierlaire},
  title = {A generalization of secant methods for solving nonlinear systems of equations},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21},
  year = {2003},
  address = {Ascona, Switzerland}}}

Spada M., Bierlaire M., Liebling T. (2003) Decision-aid Methodology for the School Bus Routing and Scheduling Problem. Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21, Ascona, Switzerland


@InProceedings{SpadBierLieb03,
  author = {Michela Spada and Michel Bierlaire and Thomas Liebling},
  title = {Decision-aid Methodology for the School Bus Routing and Scheduling Problem},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 19-21},
  year = {2003},
  address = {Ascona, Switzerland}}}

2002

Bierlaire M., Crittin F. (2002) LSQR algorithm for real-time OD estimation and prediction. Proceedings of the 1st Greek Transportation Research ConferenceFebruary, 21-22, Athens, Greece


@InProceedings{BierCrit02,
  author = {Michel Bierlaire and Frank Crittin},
  title = {LSQR algorithm for real-time OD estimation and prediction},
  booktime = {Proceedings of the 1st Greek Transportation Research Conference, February, 21-22},
  year = {2002},
  address = {Athens, Greece}}}

Bierlaire M. (2002) The Network GEV model. Proceedings of the Swiss Transport Research Conference (STRC), March, 20-22, Ascona, Switzerland


@InProceedings{Bier02,
  author = {Michel Bierlaire},
  title = {The Network GEV model},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 20-22},
  year = {2002},
  address = {Ascona, Switzerland}}}

Crittin F., Bierlaire M. (2002) An efficient algorithm for real-time estimation and prediction of dynamic OD table. Proceedings of the Swiss Transport Research Conference (STRC), March, 20-22, Ascona, Switzerland


@InProceedings{CritBier02,
  author = {Frank Crittin and Michel Bierlaire},
  title = {An efficient algorithm for real-time estimation and prediction of dynamic OD table},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 20-22},
  year = {2002},
  address = {Ascona, Switzerland}}}

Torday A., Bierlaire M., Baumann D. (2002) PAPABILES: Simulation-based evaluation of the impact of telematics in the Lausanne area: a pilot study. Phase 2: Third lane and ramp metering. Proceedings of the Swiss Transport Research Conference (STRC), March, 20-22, Ascona, Switzerland


@InProceedings{TordBierBaum02,
  author = {Alexandre Torday and Michel Bierlaire and Daniel Baumann},
  title = {PAPABILES: Simulation-based evaluation of the impact of telematics in the Lausanne area: a pilot study. Phase 2: Third lane and ramp metering},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 20-22},
  year = {2002},
  address = {Ascona, Switzerland}}}

2001

Bierlaire M., Axhausen K., Abay G. (2001) The acceptance of modal innovation: The case of Swissmetro. Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03, Ascona, Switzerland


@InProceedings{BierAxhaAbay01,
  author = {Michel Bierlaire and Kay Axhausen and Georg Abay},
  title = {The acceptance of modal innovation: The case of Swissmetro},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03},
  year = {2001},
  address = {Ascona, Switzerland}}}

Bierlaire M. (2001) A general formulation of the cross-nested logit model. Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03, Ascona, Switzerland


@InProceedings{Bier01,
  author = {Michel Bierlaire},
  title = {A general formulation of the cross-nested logit model},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03},
  year = {2001},
  address = {Ascona, Switzerland}}}

Crittin F., Bierlaire M. (2001) New Algorithmic Approaches for the Anticipatory Route Guidance Generation Problem. Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03, Ascona, Switzerland


@InProceedings{CritBier01,
  author = {Frank Crittin and Michel Bierlaire},
  title = {New Algorithmic Approaches for the Anticipatory Route Guidance Generation Problem},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03},
  year = {2001},
  address = {Ascona, Switzerland}}}

Torday A., Bierlaire M. (2001) PAPABILES: Projet Autoroutier Pilote Aubonne-Belmont pour une Initiative Lausannoise d'�valuation par Simulation. Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03, Ascona, Switzerland


@InProceedings{TordBier01,
  author = {Alexandre Torday and Michel Bierlaire},
  title = {PAPABILES: Projet Autoroutier Pilote Aubonne-Belmont pour une Initiative Lausannoise d'\'evaluation par Simulation},
  booktime = {Proceedings of the Swiss Transport Research Conference (STRC), March, 01-03},
  year = {2001},
  address = {Ascona, Switzerland}}}

2000

Ben-Akiva M., Bierlaire M., Burton D., Koutsopoulos H., Mishalani R. (2000) Simulated-based tools for dynamic traffic assignment: DynaMIT and applications. Proceedings of the ITS America 10th annual MeetingMay, 01-04, Boston, USA


@InProceedings{BenaBierBurtKoutMisha00,
  author = {Moshe Ben-Akiva and Michel Bierlaire and Didier Burton and Haris Koutsopoulos and Rabi Mishalani},
  title = {Simulated-based tools for dynamic traffic assignment: DynaMIT and applications},
  booktime = {Proceedings of the ITS America 10th annual Meeting, May, 01-04},
  year = {2000},
  address = {Boston, USA}}}

Liebling T., Bierlaire M., Crittin F., Righetti F., Stagno A. (2000) Modeling and Simulation in Logistics. Proceedings of the IML - Module M7 (IML), April, 10-14, Lausanne, Switzerland


@InProceedings{LiebBierCritRighStag00,
  author = {Thomas Liebling and Michel Bierlaire and Frank Crittin and Franco Righetti and Antonio Stagno},
  title = {Modeling and Simulation in Logistics},
  booktime = {Proceedings of the IML - Module M7 (IML), April, 10-14},
  year = {2000},
  address = {Lausanne, Switzerland}}}

1998

Ben-Akiva M., Bierlaire M., Koutsopoulos H., Mishalani R. (1998) DynaMIT: a simulation-based system for traffic prediction. Proceedings of the DACCORD Short-term forecasting workshop (DACCORD), February, Delft, The Netherland


@InProceedings{BenaBierKoutMisha98,
  author = {Moshe Ben-Akiva and Michel Bierlaire and Haris Koutsopoulos and Rabi Mishalani},
  title = {DynaMIT: a simulation-based system for traffic prediction},
  booktime = {Proceedings of the DACCORD Short-term forecasting workshop (DACCORD), February},
  year = {1998},
  address = {Delft, The Netherland}}}

1997

Antoniou C., Ben-Akiva M., Bierlaire M., Mishalani R. (1997) Demand simulation for dynamic traffic assignment. Proceedings of the 8th IFAC Symposium on Transportation Systems (IFAC), June, 16-18, Chania, Creta, Greece


@InProceedings{AntoBenaBierMisha97,
  author = {Constantinos Antoniou and Moshe Ben-Akiva and Michel Bierlaire and Rabi Mishalani},
  title = {Demand simulation for dynamic traffic assignment},
  booktime = {Proceedings of the 8th IFAC Symposium on Transportation Systems (IFAC), June, 16-18},
  year = {1997},
  address = {Chania, Creta, Greece}}}

Ben-Akiva M., Bierlaire M., Bottom J., Koutsopoulos H., Mishalani R. (1997) Development of a route guidance generation system for real-time application. Proceedings of the 8th IFAC Symposium on Transportation Systems (IFAC), June, 16-18, Chania, Creta, Greece


@InProceedings{BenaBierBottKoutMish97,
  author = {Moshe Ben-Akiva and Michel Bierlaire and Jon Bottom and Haris Koutsopoulos and Rabi Mishalani},
  title = {Development of a route guidance generation system for real-time application},
  booktime = {Proceedings of the 8th IFAC Symposium on Transportation Systems (IFAC), June, 16-18},
  year = {1997},
  address = {Chania, Creta, Greece}}}

Ashok K., Ben-Akiva M., Bierlaire M., Chachich A., Hotz A., Koutsopoulos H., Mishalani R., Yang Q. (1997) Tools for design and operations of dynamic traffic management systems. Proceedings of the 3rd Annual World Congress on Intelligent Transport Systems (WCITS), October, Orlando (Fl), USA


@InProceedings{AshoBenaBierChacHotzKoutMishaYang97,
  author = {Kalidas Ashok and Moshe Ben-Akiva and Michel Bierlaire and Alan Chachich and Antony Hotz and Haris Koutsopoulos and Rabi Mishalani and Qi Yang},
  title = {Tools for design and operations of dynamic traffic management systems},
  booktime = {Proceedings of the 3rd Annual World Congress on Intelligent Transport Systems (WCITS), October},
  year = {1997},
  address = {Orlando (Fl), USA}}}

Talks [209]

2024

Bierlaire M. Transport et mobilit� : l'importance de la recherche February 08, 2024. Séminaire d’introduction de l’ETH Zurich pour les parlementaires fédérales / fédéraux nouvellement élues / élus 2024, ETH Zurich, Konolfingen, Switzerland.


@Misc{2024parliament_fr,
  author = {Michel Bierlaire},
  title = {Transport et mobilit\'e : l'importance de la recherche},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2024parliament_fr.pdf}},
  year = {2024},
  note = {Presented at S\éminaire d\’introduction de l\’ETH Zurich pour les parlementaires f\éd\érales / f\éd\éraux nouvellement \élues / \élus 2024, ETH Zurich, Konolfingen, Switzerland}}}

2023

Bierlaire M. Solving a pricing problem under irrational behavior July 18, 2023. Seminar of the Canada Excellence Research Chair in Data Science for Real-Time Decision-Making, Polytechnique Montréal, Montréal, Canada.


@Misc{montreal2023,
  author = {Michel Bierlaire},
  title = {Solving a pricing problem under irrational behavior},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/montreal2023.pdf}},
  year = {2023},
  note = {Presented at Seminar of the Canada Excellence Research Chair in Data Science for Real-Time Decision-Making, Polytechnique Montr\éal, Montr\éal, Canada}}}

Haering T., Ljubic I., Bierlaire M. A Spatial Branch and Benders Decomposition Algorithm for Continuous Pricing with Advanced Discrete Choice Demand Modeling June 29, 2023. Network Optimization Workshop, CIRRELT, Montréal, La Spezia, Italy.


@Misc{2023NOW,
  author = {Tom Haering and Ivana Ljubic and Michel Bierlaire},
  title = {A Spatial Branch and Benders Decomposition Algorithm for Continuous Pricing with Advanced Discrete Choice Demand Modeling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2023NOW.pdf}},
  year = {2023},
  note = {Presented at Network Optimization Workshop, CIRRELT, Montr\éal, La Spezia, Italy}}}

Bierlaire M. New features in Biogeme June 02, 2023. 15th workshop on Discrete Choice Models, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.


@Misc{BierDCM2023,
  author = {Michel Bierlaire},
  title = {New features in Biogeme},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BierDCM2023.pdf}},
  year = {2023},
  note = {Presented at 15th workshop on Discrete Choice Models, Ecole Polytechnique F\éd\érale de Lausanne, Lausanne, Switzerland}}}

Bierlaire M. Mathematical Modeling of Irrational Behavior: towards a linear formulation May 16, 2023. Seminar of the Department of Information Systems, Decision Sciences and Statistics, ESSEC, Paris, France.


@Misc{essec2023,
  author = {Michel Bierlaire},
  title = {Mathematical Modeling of Irrational Behavior: towards a linear formulation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/essec2023.pdf}},
  year = {2023},
  note = {Presented at Seminar of the Department of Information Systems, Decision Sciences and Statistics, ESSEC, Paris, France}}}

Bierlaire M. Optimization and Discrete Choice Models April 25, 2023. Distinguished Seminar Series, Koc University, Istanbul, Turkey.


@Misc{2023istanbul,
  author = {Michel Bierlaire},
  title = {Optimization and Discrete Choice Models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2023istanbul.pdf}},
  year = {2023},
  note = {Presented at Distinguished Seminar Series, Koc University, Istanbul, Turkey}}}

Pougala J., Rezvany N., Bierlaire M. Modeling intra-household interactions and in-home activities in activity-based models February 24, 2023. Seminar of the Department of Technology, Management and Economics, Technical University of Denmark (DTU), Lyngby, Denmark.


@Misc{2023dtu,
  author = {Janody Pougala and Negar Rezvany and Michel Bierlaire},
  title = {Modeling intra-household interactions and in-home activities in activity-based models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2023dtu.pdf}},
  year = {2023},
  note = {Presented at Seminar of the Department of Technology, Management and Economics, Technical University of Denmark (DTU), Lyngby, Denmark}}}

Pougala J., Rezvany N., Bierlaire M. Disaggregate activity scheduling models February 24, 2023. Seminar of the Industrial Process and Energy Systems Engineering group, EPFL, Sion.


@Misc{2023sion,
  author = {Janody Pougala and Negar Rezvany and Michel Bierlaire},
  title = {Disaggregate activity scheduling models

},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2023sion.pdf}},
  year = {2023},
  note = {Presented at Seminar of the Industrial Process and Energy Systems Engineering group, EPFL, Sion}}}

2022

Bierlaire M. Mathematical modeling of human behavior: application to mobility June 14, 2022. Modèles et algorithmes: du discret au continu, Bézout Labex, Marne-la-Vallée, France.


@Misc{2022Paris,
  author = {Michel Bierlaire},
  title = {Mathematical modeling of human behavior: application to mobility },
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2022Paris.pdf}},
  year = {2022},
  note = {Presented at Mod\èles et algorithmes: du discret au continu, B\ézout Labex, Marne-la-Vall\ée, France}}}

Pougala J., Hillel T., Bierlaire M. Activity-based models: an optimization approach June 02, 2022. hEART 2022: 10th Symposium of the European Association for Research in Transportation, Leuven, Belgium.


@Misc{heart2022,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = { Activity-based models: an optimization approach},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/heart2022.pdf}},
  year = {2022},
  note = {Presented at hEART 2022: 10th Symposium of the European Association for Research in Transportation, Leuven, Belgium}}}

2021

Ortelli N., Bierlaire M. Assisted specification of discrete choice models October 24, 2021. Traffic seminar series, New York University, Abu Dhabi, UAE.


@Misc{2021AbuDhabi_bis,
  author = {Nicola Ortelli and Michel Bierlaire},
  title = {Assisted specification of discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2021AbuDhabi_bis.pdf}},
  year = {2021},
  note = {Presented at Traffic seminar series, New York University, Abu Dhabi, UAE}}}

Bierlaire M. Disaggregate demand models and optimization: challenges and research avenues October 24, 2021. Engineering Seminar Series, New York University, Abu Dhabi, UAE.


@Misc{2021NYUAD,
  author = {Michel Bierlaire},
  title = {Disaggregate demand models and optimization: challenges and research avenues},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2021NYUAD.pdf}},
  year = {2021},
  note = {Presented at Engineering Seminar Series, New York University, Abu Dhabi, UAE}}}

Bierlaire M. Disaggregate Demand Models and Optimization October 07, 2021. Seminar of the Manufacturing Sciences and Logistics Department, Ecole des Mines de Saint-Etienne, Carry-le-Rouet.


@Misc{2021Aix,
  author = {Michel Bierlaire},
  title = {Disaggregate Demand Models and Optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2021Aix.pdf}},
  year = {2021},
  note = {Presented at Seminar of the Manufacturing Sciences and Logistics Department, Ecole des Mines de Saint-Etienne, Carry-le-Rouet}}}

Bierlaire M. Human behavior and optimization September 21, 2021. Seminar of the Department of Control and Computer Engineering, Politecnico di Torino, Torino, Italy.


@Misc{2021Torino,
  author = {Michel Bierlaire},
  title = {Human behavior and optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2021Torino.pdf}},
  year = {2021},
  note = {Presented at Seminar of the Department of Control and Computer Engineering, Politecnico di Torino, Torino, Italy}}}

Pougala J., Hillel T., Bierlaire M. Reconstructing daily schedules of individuals: a utility maximization approach May 05, 2021. (Online)Lunch Seminar in Economics, Department of Economics and Management, University of Luxembourg , Luxembourg.


@Misc{2021Luxembourg,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Reconstructing daily schedules of individuals: a utility maximization approach},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2021Luxembourg.pdf}},
  year = {2021},
  note = {Presented at Lunch Seminar in Economics, Department of Economics and Management, University of Luxembourg , Luxembourg}}}

2020

Pougala J., Hillel T., Bierlaire M. Activity-based models: an optimization perspective November 23, 2020. Applied Urban Modelling Symposium 2020, The Martin Centre for Architectural and Urban Studies, University of Cambridge, Cambridge, UK.


@Misc{Cambridge2020,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Activity-based models: an optimization perspective},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/Cambridge2020.pdf}},
  year = {2020},
  note = {Presented at Applied Urban Modelling Symposium 2020, The Martin Centre for Architectural and Urban Studies, University of Cambridge, Cambridge, UK}}}

2019

Pougala J., Hillel T., Bierlaire M. Scheduling of daily activities: an optimization approach November 25, 2019. The 5th NYUAD Transportation Symposium, NYUAD Research Center for Interacting Urban Networks, Abu Dhabi, UAE.


@Misc{2019AbuDhabi,
  author = {Janody Pougala and Tim Hillel and Michel Bierlaire},
  title = {Scheduling of daily activities: an optimization approach},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2019AbuDhabi.pdf}},
  year = {2019},
  note = {Presented at The 5th NYUAD Transportation Symposium, NYUAD Research Center for Interacting Urban Networks, Abu Dhabi, UAE}}}

Bierlaire M. Discrete choice and machine learning: Thomson and Thompson? June 11, 2019. Seminar of the Choice Modelling Center, University of Leeds, United Kingdom.


@Misc{2019Leeds,
  author = {Michel Bierlaire},
  title = {Discrete choice and machine learning: Thomson and Thompson?},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2019Leeds.pdf}},
  year = {2019},
  note = {Presented at Seminar of the Choice Modelling Center, University of Leeds, United Kingdom}}}

2018

Bierlaire M. Incorporating behavioral model into transport optimization December 03, 2018. Incorporating Behavioural Science into Transport Modelling for Facing Future Challenges of Vehicle Automation, TU Delft, Delft, The Netherlands.


@Misc{delft2018,
  author = {Michel Bierlaire},
  title = {Incorporating behavioral model into transport optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/delft2018.pdf}},
  year = {2018},
  note = {Presented at Incorporating Behavioural Science into Transport Modelling for Facing Future Challenges of Vehicle Automation, TU Delft, Delft, The Netherlands}}}

Bierlaire M., Molyneaux N., Scarinci R., Oyama Y. Smart transfers through unravelling urban form and travel flow dynamics November 19, 2018. The 4th NYUAD Transportation Symposium, New-York University, Abu Dhabi.


@Misc{2018abudhabi,
  author = {Michel Bierlaire and Nicholas Molyneaux and Riccardo Scarinci and Yuki Oyama},
  title = {Smart transfers through unravelling urban form and travel flow dynamics},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2018abudhabi.pdf}},
  year = {2018},
  note = {Presented at The 4th NYUAD Transportation Symposium, New-York University, Abu Dhabi}}}

Bierlaire M. Discrete choice and machine learning: two peas in a pod? October 17, 2018. (Plenary)Mathematics Applied in Transport and Traffic Systems, Delft University of Technology, Delft, The Netherlands.


@Misc{2018MATTS,
  author = {Michel Bierlaire},
  title = {Discrete choice and machine learning: two peas in a pod?},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2018MATTS.pdf}},
  year = {2018},
  note = {Presented at Mathematics Applied in Transport and Traffic Systems, Delft University of Technology, Delft, The Netherlands}}}

Bierlaire M. From moving vehicles to moving people: mobility as a service April 09, 2018. Workshop: Future of Public Transport, Erasmus Universiteit, Rotterdam, The Netherlands.


@Misc{ROTTERDAM2018,
  author = {Michel Bierlaire},
  title = {From moving vehicles to moving people: mobility as a service},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ROTTERDAM2018.pdf}},
  year = {2018},
  note = {Presented at Workshop: Future of Public Transport, Erasmus Universiteit, Rotterdam, The Netherlands}}}

2017

Farooq B., Bierlaire M. Simulation-based population synthesis using Gibbs sampling December 08, 2017. Conference on synthetic population, Swiss Federal Office for Spatial Development , Bern, Switzerland.


@Misc{2017ARE,
  author = {Bilal Farooq and Michel Bierlaire},
  title = {Simulation-based population synthesis using Gibbs sampling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/2017ARE.pdf}},
  year = {2017},
  note = {Presented at Conference on synthetic population, Swiss Federal Office for Spatial Development , Bern, Switzerland}}}

Bierlaire M., Lurkin V. Introduction to Disaggregate Demand Models October 23, 2017. (Invited tutorial)INFORMS Annual Meeting Houston, Institute for Operations Research and the Management Sciences, Houston, Tx.


@Misc{informsTutorial2017,
  author = {Michel Bierlaire and Virginie Lurkin},
  title = {Introduction to Disaggregate Demand Models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/informsTutorial2017.pdf}},
  year = {2017},
  note = {Presented at INFORMS Annual Meeting Houston, Institute for Operations Research and the Management Sciences, Houston, Tx}}}

Bierlaire M. Calculating indicators with Biogeme September 25, 2017. Choice Modelling in Environmental Research: Challenges, Applications and New Trends, Centre for Development and Environment, University of Bern, Switzerland.


@Misc{berne2017,
  author = {Michel Bierlaire},
  title = {Calculating indicators with Biogeme},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/berne2017.pdf}},
  year = {2017},
  note = {Presented at Choice Modelling in Environmental Research:

Challenges, Applications and New Trends, Centre for Development and Environment, University of Bern, Switzerland}}}

Bierlaire M. Mathematical models of behavior for the prediction of demand in transportation and energy July 11, 2017. Seminar of the Distributed Electrical Systems Laboratory, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.


@Misc{epflEnergy2017,
  author = {Michel Bierlaire},
  title = {Mathematical models of behavior for the prediction of

demand in transportation and energy},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/epflEnergy2017.pdf}},
  year = {2017},
  note = {Presented at Seminar of the Distributed Electrical Systems Laboratory, Ecole Polytechnique F\éd\érale de Lausanne, Lausanne, Switzerland}}}

Bierlaire M., Pacheco M. From Complex Travel Behaviour to Optimization: the Methodological Challenges March 22, 2017. Transport Seminar Series, School of Civil Engineering and Geosciences, Newcastle University, Newcastle upon Tyne.


@Misc{NEWCASTLE17,
  author = {Michel Bierlaire and Meritxell Pacheco},
  title = {From Complex Travel Behaviour to Optimization: the Methodological Challenges},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NEWCASTLE17.pdf}},
  year = {2017},
  note = {Presented at Transport Seminar Series, School of Civil Engineering and Geosciences, Newcastle University, Newcastle upon Tyne}}}

Bierlaire M. Introduction to choice modeling January 06, 2017. Invited lecture, GuangDong University of Technology , Guangzhou, China.


@Misc{GZ2016-1,
  author = {Michel Bierlaire},
  title = {Introduction to choice modeling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/GZ2016-1.pdf}},
  year = {2017},
  note = {Presented at Invited lecture, GuangDong University of Technology



, Guangzhou, China}}}

Bierlaire M., Pacheco M. Using disaggregate demand models in operations research January 05, 2017. Invited seminar, GuangDong University of Technology , Guangzhou, China.


@Misc{GZ2016-2,
  author = {Michel Bierlaire and Meritxell Pacheco},
  title = {Using disaggregate demand models in operations research},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/GZ2016-2.pdf}},
  year = {2017},
  note = {Presented at Invited seminar, GuangDong University of Technology



, Guangzhou, China}}}

Bierlaire M. Dynamic choice models with panel data January 03, 2017. Invited lecture, Department of Civil and Environmental Engineering The Hong Kong Polytechnic University, Hong Kong.


@Misc{HK2016-1,
  author = {Michel Bierlaire},
  title = {Dynamic choice models with panel data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/HK2016-1.pdf}},
  year = {2017},
  note = {Presented at Invited lecture, Department of Civil and Environmental Engineering

The Hong Kong Polytechnic University, Hong Kong}}}

Bierlaire M. Demand forecasting with discrete choice models January 03, 2017. Invited lecture, Department of Civil and Environmental Engineering The Hong Kong Polytechnic University, Hong Kong.


@Misc{HK2016-2,
  author = {Michel Bierlaire},
  title = {Demand forecasting with discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/HK2016-2.pdf}},
  year = {2017},
  note = {Presented at Invited lecture, Department of Civil and Environmental Engineering

The Hong Kong Polytechnic University, Hong Kong}}}

Bierlaire M., Pacheco M. Integrating advanced discrete choice models into (mixed) integer linear optimization January 03, 2017. Invited seminar, Department of Civil and Environmental Engineering The Hong Kong Polytechnic University, Hong Kong.


@Misc{HK2016-3,
  author = {Michel Bierlaire and Meritxell Pacheco},
  title = {Integrating advanced discrete choice models into (mixed) integer linear optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/HK2016-3.pdf}},
  year = {2017},
  note = {Presented at Invited seminar, Department of Civil and Environmental Engineering

The Hong Kong Polytechnic University, Hong Kong}}}

2016

Bierlaire M., Nikolic M., Scarinci R. Pedestrians: the new kings of smart cities November 20, 2016. The 2nd NYUAD Transportation Symposium, NYU Abu Dhabi, Abu Dhabi, UAE.


@Misc{abuDhabi2016,
  author = {Michel Bierlaire and Marija Nikolic and Riccardo Scarinci},
  title = {Pedestrians: the new kings of smart cities},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/abuDhabi2016.pdf}},
  year = {2016},
  note = {Presented at The 2nd NYUAD Transportation Symposium, NYU Abu Dhabi, Abu Dhabi, UAE}}}

Bierlaire M. Incorporating advanced behavioral models in integer optimization September 13, 2016. Random Regret Models Symposium, TU Delft, The Netherlands.


@Misc{mbidelft2016,
  author = {Michel Bierlaire},
  title = {Incorporating advanced behavioral models in integer optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbidelft2016.pdf}},
  year = {2016},
  note = {Presented at Random Regret Models Symposium, TU Delft, The Netherlands}}}

Bierlaire M. User-centric flexible transportation systems July 08, 2016. (Plenary talk)16th COTA conference International Conference of Transportation Professionals, Shanghai, China.


@Misc{CICTP2016_Bierlaire,
  author = {Michel Bierlaire},
  title = {User-centric flexible

transportation systems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CICTP2016_Bierlaire.pdf}},
  year = {2016},
  note = {Presented at 16th COTA conference International Conference of Transportation Professionals, Shanghai, China}}}

Bierlaire M., Sharif Azadeh S. Discrete choice models and operations research: a difficult combination June 16, 2016. (Plenary lecture)9th Triennial Symposium on Transportation Analysis , TRISTAN, Oranjestad, Aruba.


@Misc{mbiTristan2016,
  author = {Michel Bierlaire and Shadi {Sharif Azadeh}},
  title = {Discrete choice models and operations research: a

difficult combination},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiTristan2016.pdf}},
  year = {2016},
  note = {Presented at 9th Triennial Symposium on Transportation Analysis , TRISTAN, Oranjestad, Aruba}}}

2015

Bierlaire M. Discrete choice and discrete optimization: a continuous quest for integration December 18, 2015. Seminar on Advances on Discrete Choice models In the honor of Daniel McFadden, Université de Cergy-Pontoise, Cergy-Pontoise, France.


@Misc{mbiCergy2015,
  author = {Michel Bierlaire},
  title = {Discrete choice and discrete optimization: a continuous quest for integration},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiCergy2015.pdf}},
  year = {2015},
  note = {Presented at Seminar on Advances on Discrete Choice models  In the honor of Daniel McFadden, Universit\é de Cergy-Pontoise, Cergy-Pontoise, France}}}

Bierlaire M. The behavioral dimension of optimization December 16, 2015. Seminar of Numerical Analysis, Institute of Computational Science and Engineering, EPFL, Lausanne, Switzerland.


@Misc{mbiMath2015,
  author = {Michel Bierlaire},
  title = {The behavioral dimension of optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiMath2015.pdf}},
  year = {2015},
  note = {Presented at Seminar of Numerical Analysis, Institute of Computational Science and Engineering, EPFL, Lausanne, Switzerland}}}

Bierlaire M. Demand and supply optimization November 16, 2015. New Directions in Mathematical Approaches for Traffic Flow Management: Decision Support for Traffic, Institute for Pure and Applied Mathematics, UCLA, Los Angeles.


@Misc{mbiIpam2015,
  author = {Michel Bierlaire},
  title = {Demand and supply optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiIpam2015.pdf}},
  year = {2015},
  note = {Presented at New Directions in Mathematical Approaches for Traffic Flow Management: Decision Support for Traffic, Institute for Pure and Applied Mathematics, UCLA, Los Angeles}}}

Bierlaire M., Sharif Azadeh S. Incorporating advanced behavioral models in integer optimization August 26, 2015. CIRRELT Seminar, Interuniversity Research Center om Enterprise Networks, Logistics and Transportation, Montréal, Canada.


@Misc{mbiCirrelt2015,
  author = {Michel Bierlaire and Shadi {Sharif Azadeh}},
  title = {Incorporating advanced behavioral models in integer optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiCirrelt2015.pdf}},
  year = {2015},
  note = {Presented at CIRRELT Seminar, Interuniversity Research Center om Enterprise Networks, Logistics and Transportation, Montr\éal, Canada}}}

Bierlaire M., Binder S., Maknoon Y., Robenek T. Passenger-centric railway operations May 19, 2015. Network Optimization Workshop, La Rochelle, France.


@Misc{NOW15,
  author = {Michel Bierlaire and Stefan Binder and Yousef Maknoon and Tom\'a\v{s} Robenek},
  title = {Passenger-centric railway operations},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NOW15.pdf}},
  year = {2015},
  note = {Presented at Network Optimization Workshop, La Rochelle, France}}}

Bierlaire M., Binder S., Maknoon Y., Robenek T. Demand-based scheduling April 10, 2015. Seminar of the Dpt of Economics and Management, University of Brescia, Italy.


@Misc{mbiBrescia,
  author = {Michel Bierlaire and Stefan Binder and Yousef Maknoon and Tom\'a\v{s} Robenek},
  title = {Demand-based scheduling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiBrescia.pdf}},
  year = {2015},
  note = {Presented at Seminar of the Dpt of Economics and Management, University of Brescia, Italy}}}

2014

Bierlaire M., Nikolic M., Hänseler F., Danalet A., Scarinci R. Modeling opportunities from modern pedestrian data November 18, 2014. TRAIL Master Class on Urban Mobility Laboratory, TU Delft, Deflt, The Netherlands.


@Misc{mbiDelft2014,
  author = {Michel Bierlaire and Marija Nikolic and Flurin H\"anseler and Antonin Danalet and Riccardo Scarinci},
  title = {Modeling opportunities from modern pedestrian data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiDelft2014.pdf}},
  year = {2014},
  note = {Presented at TRAIL Master Class on Urban Mobility Laboratory, TU Delft, Deflt, The Netherlands}}}

Bierlaire M. Simulation and optimization in transportation: an overview November 06, 2014. Séminaire de la chaire CN en intermodalité des transports, CIRRELT, Montréal, Canada.


@Misc{MONTREAL14,
  author = {Michel Bierlaire},
  title = {Simulation and optimization in transportation: an overview},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MONTREAL14.pdf}},
  year = {2014},
  note = {Presented at S\éminaire de la chaire CN en intermodalit\é des transports, CIRRELT, Montr\éal, Canada}}}

Bierlaire M. Route choice models: bringing behavioral aspects into shortest path October 27, 2014. Graphs and Decisions, University of Luxembourg.


@Misc{LUX14,
  author = {Michel Bierlaire},
  title = {Route choice models: bringing behavioral aspects into shortest path},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LUX14.pdf}},
  year = {2014},
  note = {Presented at Graphs and Decisions, University of Luxembourg}}}

Lai X., Bierlaire M. Specification of the cross nested logit model with sampling of alternatives for route choice models June 26, 2014. International workshop on current topics in choice modelling, University of Leeds, Leeds, UK.


@Misc{LEEDS14,
  author = {Xinjun Lai and Michel Bierlaire},
  title = {Specification of the cross nested logit model with sampling of alternatives for route choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LEEDS14.pdf}},
  year = {2014},
  note = {Presented at International workshop on current topics in choice modelling, University of Leeds, Leeds, UK}}}

2013

Bierlaire M., Danalet A., Hänseler F., Nikolic M. Recent trends in pedestrian modeling at EPFL October 23, 2013. Congreso Chileno de Ingeniería de Transporte, Instituto Sistemas Complejos de Ingeniería, Santiago, Chile.


@Misc{SANTIAGO13,
  author = {Michel Bierlaire and Antonin Danalet and Flurin H\"anseler and Marija Nikolic},
  title = {Recent trends in pedestrian modeling at EPFL},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/SANTIAGO13.pdf}},
  year = {2013},
  note = {Presented at Congreso Chileno de Ingenier\ía de Transporte, Instituto Sistemas Complejos de Ingenier\ía, Santiago, Chile}}}

Bierlaire M. Modeling behavior to support economical decisions September 02, 2013. Modelling Expert Network Workshop, Nestle, Konolfingen, Switzerland.


@Misc{NESTLE13,
  author = {Michel Bierlaire},
  title = {Modeling behavior to support economical decisions},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NESTLE13.pdf}},
  year = {2013},
  note = {Presented at Modelling Expert Network Workshop, Nestle, Konolfingen, Switzerland}}}

Bierlaire M. Mixtures and latent variables in discrete choice models: an introduction July 16, 2013. (Tutorial)International Symposium on Transportation and Traffic Theory, Delft, The Netherlands.


@Misc{ISTTT13,
  author = {Michel Bierlaire},
  title = {Mixtures and latent variables in discrete choice models: an introduction},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ISTTT13.pdf}},
  year = {2013},
  note = {Presented at International Symposium on Transportation and Traffic Theory, Delft, The Netherlands}}}

Bierlaire M., Atasoy B., Salani M., Leonardi C. Impact analysis of a exible air transportation system: Clip-Air June 27, 2013. Network Optimization Workshop, Syracuse, Italy.


@Misc{NOW13,
  author = {Michel Bierlaire and Bilge Atasoy and Matteo Salani and Claudio Leonardi},
  title = {Impact analysis of a  exible air transportation system: Clip-Air},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NOW13.pdf}},
  year = {2013},
  note = {Presented at  Network Optimization Workshop, Syracuse, Italy}}}

Bierlaire M., Umang N. Berth Allocation Problem in Real Time June 13, 2013. TRISTAN VIII, San Pedro De Atacama, Chile.


@Misc{Tristan_BierNit13,
  author = {Michel Bierlaire and Nitish Umang},
  title = {Berth Allocation Problem in Real Time},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/Tristan_BierNit13.pdf}},
  year = {2013},
  note = {Presented at TRISTAN VIII, San Pedro De Atacama, Chile}}}

Bierlaire M., Farooq B., Hurtubia R., Flötteröd G. Simulation based Population Synthesis February 22, 2013. Transportation@MIT Seminar Series, Massachusetts Institute of Technology, Cambridge, MA.


@Misc{MIT2013,
  author = {Michel Bierlaire and Bilal Farooq and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {Simulation based Population Synthesis},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT2013.pdf}},
  year = {2013},
  note = {Presented at Transportation@MIT Seminar Series, Massachusetts Institute of Technology, Cambridge, MA}}}

Bierlaire M. Introduction to disaggregate demand models January 29, 2013. Dinalog Winterschool 2013, Dutch Institute for Advanced Logistics (Dinalog), Breda, The Netherlands.


@Misc{DINALOG13,
  author = {Michel Bierlaire},
  title = {Introduction to disaggregate demand models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DINALOG13.pdf}},
  year = {2013},
  note = {Presented at Dinalog Winterschool 2013, Dutch Institute for Advanced Logistics (Dinalog), Breda, The Netherlands}}}

2012

Chen J., Bierlaire M. Probabilistic multimodal map-matching with rich smartphone data July 16, 2012. 13th International Conference on Travel Behavior Research, Toronto, Canada.


@Misc{IATBR2012,
  author = {Jingmin Chen and Michel Bierlaire},
  title = {Probabilistic multimodal map-matching with rich smartphone data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IATBR2012.pdf}},
  year = {2012},
  note = {Presented at  13th International Conference on Travel Behavior Research, Toronto, Canada}}}

Bierlaire M., Boyaci B., Kumar P., Binder S. Cost Optimization for the Capacitated Railroad Blocking and Train Design Problem May 21, 2012. 5th International Workshop on Freight Transportation and Logistics, Mykonos, Greece.


@Misc{BierBoyaKumaBind12,
  author = {Michel Bierlaire and Burak Boyaci and Prem Kumar and Stefan Binder},
  title = {Cost Optimization for the Capacitated Railroad Blocking and Train Design Problem},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BierBoyaKumaBind12.pdf}},
  year = {2012},
  note = {Presented at 5th International Workshop on Freight Transportation and Logistics, Mykonos, Greece}}}

2011

Bierlaire M., Glerum A., Atasoy B., Thémans M. Integrating Latent Concepts in Demand Models November 25, 2011. Seminar of the Department of Applied Economics, University of the Basque Country, Bilbao, Spain.


@Misc{Bilbao_Nov2011,
  author = {Michel Bierlaire and Aur\'elie Glerum and Bilge Atasoy and Micha\"el Th\'emans},
  title = {Integrating Latent Concepts in Demand Models },
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/Bilbao_Nov2011.pdf}},
  year = {2011},
  note = {Presented at Seminar of the Department of Applied Economics, University of the Basque Country, Bilbao, Spain}}}

Bierlaire M. Modeling and Simulation of Human Choices: from Utility Theory to Applications October 13, 2011. (Plenary lecture)Symposium on "Enhance or Replace: Finding the Right Live vs. Synthetic Balance", North Atlantic Treaty Organization, Bern, Switzerland.


@Misc{mbiNato11,
  author = {Michel Bierlaire},
  title = {Modeling and Simulation of Human Choices: from Utility Theory to Applications},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiNato11.pdf}},
  year = {2011},
  note = {Presented at Symposium on \"Enhance or Replace: Finding the Right Live vs. Synthetic Balance\", North Atlantic Treaty Organization, Bern, Switzerland}}}

Atasoy B., Glerum A., Bierlaire M. Mode choice with attitudinal latent class: a Swiss case-study July 06, 2011. Second International Choice Modeling Conference, Leeds, UK.


@Misc{ICMC11-Bilge,
  author = {Bilge Atasoy and Aur\'elie Glerum and Michel Bierlaire},
  title = {Mode choice with attitudinal latent class: a Swiss case-study},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ICMC11-Bilge.pdf}},
  year = {2011},
  note = {Presented at Second International Choice Modeling Conference, Leeds, UK}}}

Bierlaire M. Using smartphone data for travel demand analysis: challenges and opportunities June 23, 2011. (Invited lecture)Emerging issues and methods in policy-oriented travel demand analysis, Transportation Research Institute, the Technion, Haifa, Israël.


@Misc{TECHNION11,
  author = {Michel Bierlaire},
  title = {Using smartphone data for travel demand analysis: challenges and opportunities},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TECHNION11.pdf}},
  year = {2011},
  note = {Presented at Emerging issues and methods in policy-oriented travel demand analysis, Transportation Research Institute, the Technion,  Haifa, Isra\ël}}}

Bierlaire M. From smartphone data to route choice modeling April 29, 2011. ITS Friday Seminar, Institute of Transportation Studies, University of California, Berkeley.


@Misc{BERKELEY11,
  author = {Michel Bierlaire},
  title = {From smartphone data to route choice modeling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BERKELEY11.pdf}},
  year = {2011},
  note = {Presented at ITS Friday Seminar, Institute of Transportation Studies, University of California, Berkeley}}}

Bierlaire M., Chen J., Flötteröd G. Mobility detection with smartphone data January 27, 2011. iTEAM Workshop 2011, Washington, DC..


@Misc{iTEAMTRB11,
  author = {Michel Bierlaire and Jingmin Chen and Gunnar Fl\"otter\"od},
  title = {Mobility detection with smartphone data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/iTEAMTRB11.pdf}},
  year = {2011},
  note = {Presented at iTEAM Workshop 2011, Washington, DC.}}}

2010

Bierlaire M. Discrete choice models with latent classes and variables November 24, 2010. (Plenary speaker)TRAIL Congress , The Netherlands Research School for Transport, Infrastructure and Logistics , Rotterdam, The Netherlands.


@Misc{TRAIL10,
  author = {Michel Bierlaire},
  title = {Discrete choice models with latent classes and variables},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRAIL10.pdf}},
  year = {2010},
  note = {Presented at TRAIL Congress , The Netherlands Research School for Transport, Infrastructure and Logistics , Rotterdam, The Netherlands}}}

Bierlaire M., Chen J., Newman J. Map matching with smartphones GPS data October 28, 2010. Deuxième séminaire recherche franco-suisse, Pôle Véhicule du Futur, Strasbourg, France.


@Misc{VEHFUTUR10,
  author = {Michel Bierlaire and Jingmin Chen and Jeffrey Newman},
  title = {Map matching with smartphones GPS data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/VEHFUTUR10.pdf}},
  year = {2010},
  note = {Presented at Deuxi\ème s\éminaire recherche franco-suisse, P\ôle V\éhicule du Futur, Strasbourg, France}}}

Chen J., Bierlaire M., Newman J. Modeling Route Choice Behavior From Smartphone GPS data August 19, 2010. Sixth Workshop on Discrete Choice Models, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.


@Misc{DCA2010_GPS,
  author = {Jingmin Chen and Michel Bierlaire and Jeffrey Newman},
  title = {Modeling Route Choice Behavior From Smartphone GPS data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DCA2010_GPS.pdf}},
  year = {2010},
  note = {Presented at Sixth Workshop on Discrete Choice Models, Ecole Polytechnique F\éd\érale de Lausanne, Lausanne, Switzerland}}}

Flötteröd G., Bierlaire M. Online calibration of dynamic traffic assignment July 16, 2010. Integrated Modeling and Simulation Workshop, Lisbon, Portugal.


@Misc{Online_iTEAM10,
  author = {Gunnar Fl\"otter\"od and Michel Bierlaire},
  title = {Online calibration of dynamic traffic assignment},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/Online_iTEAM10.pdf}},
  year = {2010},
  note = {Presented at Integrated Modeling and Simulation Workshop, Lisbon, Portugal}}}

Eggenberg N., Salani M., Bierlaire M. Robust and Recoverable Maintenance Routing Schedules June 23, 2010. Tristan VII, Triennial Symposium on Transportation Analysis, Tromso, Norway.


@Misc{TristanEggSalBie2010,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Robust and Recoverable Maintenance Routing Schedules },
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TristanEggSalBie2010.pdf}},
  year = {2010},
  note = {Presented at Tristan VII,  Triennial Symposium on Transportation Analysis, Tromso, Norway}}}

Bierlaire M. Modeling mobility patterns from smart phone data June 16, 2010. Du transport à la demande à la mobilité flexible : Les solutions apportées par le centre de transport de l’EPFL aux nouvelles exigences de notre société, Transortation Center, EPFL, Lausanne, Switzerland.


@Misc{NokiaA3,
  author = {Michel Bierlaire},
  title = {Modeling mobility patterns from smart phone data},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NokiaA3.pdf}},
  year = {2010},
  note = {Presented at Du transport \à la demande \à la mobilit\é flexible : Les solutions apport\ées par le centre de transport de l\’EPFL aux nouvelles exigences de notre soci\ét\é, Transortation Center, EPFL, Lausanne, Switzerland}}}

Bierlaire M. Estimating hybrid choice models with the new version of Biogeme May 27, 2010. Seminar series, Institute for Transport Planning and Systems, ETHZ, Zürich, Switzerland.


@Misc{IVT10,
  author = {Michel Bierlaire},
  title = {Estimating hybrid choice models with the new version of   Biogeme},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IVT10.pdf}},
  year = {2010},
  note = {Presented at Seminar series, Institute for Transport Planning and Systems, ETHZ, Z\ürich, Switzerland}}}

Bierlaire M. Recent research challenges in pedestrian modeling May 03, 2010. (Invited expert)Transport and Crowd Management Workshop, Center of Research Excellence in Hajj and Omrah, Jeddah, Saudi Arabia.


@Misc{mbiPedestrianJeddah,
  author = {Michel Bierlaire},
  title = {Recent research challenges in pedestrian modeling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiPedestrianJeddah.pdf}},
  year = {2010},
  note = {Presented at Transport and Crowd Management Workshop, Center of Research Excellence in Hajj and Omrah, Jeddah, Saudi Arabia}}}

Bierlaire M. Mathematical modeling of behavior March 11, 2010. (Invited lecturer)Séminaire 3e cycle d'optimisation, FUNDP, University of Namur, Belgium, Blankenberge, Belgium.


@Misc{BLANK10,
  author = {Michel Bierlaire},
  title = {Mathematical modeling of behavior},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BLANK10.pdf}},
  year = {2010},
  note = {Presented at S\éminaire 3e cycle d'optimisation, FUNDP, University of Namur, Belgium, Blankenberge, Belgium}}}

Bierlaire M., Hurtubia R., Flötteröd G. Analysis of Implicit Choice Set Generation Using the Constrained Multinomial-Logit Model January 12, 2010. TRB 89th Annual Meeting, Transportation Research Board, Washington, DC..


@Misc{TRB2010,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {Analysis of Implicit Choice Set Generation Using the Constrained Multinomial-Logit Model},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRB2010.pdf}},
  year = {2010},
  note = {Presented at TRB 89th Annual Meeting, Transportation Research Board, Washington, DC.}}}

2009

Frejinger E., Bierlaire M. Route Choice Analysis: Data, Models, Algorithms and Applications December 18, 2009. The 12th International Conference on Travel Behaviour Research, International Association for Travel Behaviour Research, Jaipur, India.


@Misc{IATBR09_EMMA,
  author = {Emma Frejinger and Michel Bierlaire},
  title = {Route Choice Analysis: Data, Models, Algorithms and Applications},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IATBR09_EMMA.pdf}},
  year = {2009},
  note = {Presented at The 12th International Conference on Travel Behaviour Research, International Association for Travel Behaviour Research, Jaipur, India}}}

Bierlaire M., Doyen E., Kaufmann V., Schuler M. Mobilit� combin�e. Enseignements et pistes d'action. November 12, 2009. (Invited speaker)Movimento, Car Postal, Bern, Switzerland.


@Misc{MOVIMENTO09,
  author = {Michel Bierlaire and Etienne Doyen and Vincent Kaufmann and Martin Schuler},
  title = {Mobilit\'e combin\'ee. Enseignements et pistes d'action.},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MOVIMENTO09.pdf}},
  year = {2009},
  note = {Presented at Movimento, Car Postal, Bern, Switzerland}}}

Newman J., Chen J., Bierlaire M. Collecting mobility data with smartphones: challenges and opportunities October 15, 2009. Eurocities DATTA 3rd Workshop "Travel and activity rhythms: from new methodologies to empirical evidence", Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.


@Misc{EUROCITIES09,
  author = {Jeffrey Newman and Jingmin Chen and Michel Bierlaire},
  title = {Collecting mobility data with smartphones: challenges and opportunities},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/EUROCITIES09.pdf}},
  year = {2009},
  note = {Presented at Eurocities DATTA 3rd Workshop \"Travel and activity rhythms: from new methodologies to empirical evidence\", Ecole Polytechnique F\éd\érale de Lausanne, Lausanne, Switzerland}}}

Bierlaire M., Hurtubia R., Flötteröd G. Experimental analysis of the implicit choice set generation using the Constrained Multinomial Logit model August 27, 2009. Workshop on discrete choice models, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.


@Misc{WDCA09,
  author = {Michel Bierlaire and Ricardo Hurtubia and Gunnar Fl\"otter\"od},
  title = {Experimental analysis of the implicit choice set generation using the Constrained Multinomial Logit model},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/WDCA09.pdf}},
  year = {2009},
  note = {Presented at Workshop on discrete choice models, Ecole Polytechnique F\éd\érale de Lausanne, Lausanne, Switzerland}}}

Bierlaire M., Lavadinho S. Trace: the new transportation center at EPFL June 25, 2009. French-Swiss workshop with CCEM and the Pôle "Véhicule du futur", Competence Center Energy and Mobility, Villingen, Switzerland.


@Misc{PSI09,
  author = {Michel Bierlaire and Sonia Lavadinho},
  title = {Trace: the new transportation center at EPFL},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/PSI09.pdf}},
  year = {2009},
  note = {Presented at French-Swiss workshop with CCEM and the P\ôle \"V\éhicule du futur\", Competence Center Energy and Mobility, Villingen, Switzerland}}}

Bierlaire M. L�espace : un point de vue math�matique avec applications � l�analyse de la mobilit� June 19, 2009. Journée d'étude "Penser l'espace", Laboratoire CHOROS, EPFL, Lausanne, Switzerland.


@Misc{CHOROS09,
  author = {Michel Bierlaire},
  title = {L{\textquoteright}espace : un point de vue math\'ematique avec applications \`a l{\textquoteright}analyse de la mobilit\'e},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CHOROS09.pdf}},
  year = {2009},
  note = {Presented at Journ\ée d'\étude \"Penser l'espace\", Laboratoire CHOROS, EPFL, Lausanne, Switzerland}}}

Bierlaire M. Some research projects at the Transport and Mobility Laboratory (EPFL) June 09, 2009. Offsite meeting Lysis, Lysis, Nagravision, Lutry, Switzerland.


@Misc{LYSIS09,
  author = {Michel Bierlaire},
  title = {Some research projects at the Transport and Mobility Laboratory (EPFL)},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LYSIS09.pdf}},
  year = {2009},
  note = {Presented at Offsite meeting Lysis, Lysis, Nagravision, Lutry, Switzerland}}}

Bierlaire M. Estimation of discrete choice models under various sampling strategies June 02, 2009. (Invited lecture)European Regional Meeting, International Society for Business and Industrial Statistics, Cagliari, Italy.


@Misc{ISBIS09,
  author = {Michel Bierlaire},
  title = {Estimation of discrete choice models under various sampling strategies},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ISBIS09.pdf}},
  year = {2009},
  note = {Presented at European Regional Meeting, International Society for Business and Industrial Statistics, Cagliari, Italy}}}

Bierlaire M. Discrete choice models: a glance at the state-of-the-art and the state-of-practice May 27, 2009. Research seminar, Nestlé Research Center, Lausanne, Switzerland.


@Misc{mbiNestle09,
  author = {Michel Bierlaire},
  title = {Discrete choice models: a glance at the state-of-the-art and the state-of-practice},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/mbiNestle09.pdf}},
  year = {2009},
  note = {Presented at Research seminar, Nestl\é Research Center, Lausanne, Switzerland}}}

Robin T., Antonini G., Bierlaire M., Cruz J. Validation of a discrete choice model in the context of pedestrian walking behavior May 18, 2009. Seminar of the Centre for Transport Studies, KTH - The Royal Institute of Technology, Stockholm, Sweden.


@Misc{STOCK09,
  author = {Thomas Robin and Gianluca Antonini and Michel Bierlaire and Javier Cruz},
  title = {Validation of a discrete choice model in the context of pedestrian walking behavior },
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STOCK09.pdf}},
  year = {2009},
  note = {Presented at Seminar of the Centre for Transport Studies, KTH - The Royal Institute of Technology, Stockholm, Sweden}}}

Bierlaire M. Introduction to mixtures in discrete choice models May 14, 2009. Séminaire "Modèles de trafic", Institut National de Recherche sur les Transports et leur Sécurité (INRETS), Paris, France.


@Misc{INRETS09,
  author = {Michel Bierlaire},
  title = {Introduction to mixtures in discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INRETS09.pdf}},
  year = {2009},
  note = {Presented at S\éminaire \"Mod\èles de trafic\", Institut National de Recherche sur les Transports et leur S\écurit\é (INRETS), Paris, France}}}

Bierlaire M. Recent developments in discrete choice modeling: properties of the Multivariate Extreme Value models and their impact on applications May 08, 2009. Lunch Seminar in Energy, Environmental and Resource Economics, Centre for Energy Policy and Economics, ETHZ, Zürich, Switzerland.


@Misc{ETHZ09,
  author = {Michel Bierlaire},
  title = {Recent developments in discrete choice modeling: properties of the Multivariate Extreme Value models and their impact on applications},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETHZ09.pdf}},
  year = {2009},
  note = {Presented at Lunch Seminar in Energy, Environmental and Resource Economics, Centre for Energy Policy and Economics, ETHZ, Z\ürich, Switzerland}}}

Bierlaire M. Automatic facial expression recognition: a discrete choice approach April 01, 2009. (Plenary keynote presentation)International Choice Modelling Conference, Institute for Transport Studies at the University of Leeds, Harrogate, UK.


@Misc{LEEDS09a,
  author = {Michel Bierlaire},
  title = {Automatic facial expression recognition: a discrete choice approach},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LEEDS09a.pdf}},
  year = {2009},
  note = {Presented at International Choice Modelling Conference, Institute for Transport Studies at the University of Leeds, Harrogate, UK}}}

Bierlaire M. Parallel computing for simulated maximum likelihood estimation in Biogeme March 30, 2009. International Choice Modelling Conference, Institute for Transport Studies at the University of Leeds, Harrogate, UK.


@Misc{LEEDS09b,
  author = {Michel Bierlaire},
  title = {Parallel computing for simulated maximum likelihood estimation in Biogeme},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LEEDS09b.pdf}},
  year = {2009},
  note = {Presented at International Choice Modelling Conference, Institute for Transport Studies at the University of Leeds, Harrogate, UK}}}

Bierlaire M., Newman J. Exploiting mobility data from Nokia smartphones January 06, 2009. Seminar of the Intelligent Transportation Systems Program, Massachusetts Institute of Technology, Cambridge, Ma.


@Misc{MITNokia09,
  author = {Michel Bierlaire and Jeffrey Newman},
  title = {Exploiting mobility data from Nokia smartphones},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MITNokia09.pdf}},
  year = {2009},
  note = {Presented at Seminar of the Intelligent Transportation Systems Program, Massachusetts Institute of Technology, Cambridge, Ma}}}

2008

Martinez F., Cascetta E., Pagliara F., Bierlaire M., Axhausen K. An application of the constrained multinomial Logit (CMNL) for modeling dominated choice alternatives October 16, 2008. Swiss Transport Research Conference 2008, Ascona, Switzerland.


@Misc{STRC08COFF,
  author = {Francesco Martinez and Ennio Cascetta and Francesca Pagliara and Michel Bierlaire and Kay Axhausen},
  title = {An application of the constrained multinomial Logit (CMNL) for modeling dominated choice alternatives},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC08COFF.pdf}},
  year = {2008},
  note = {Presented at Swiss Transport Research Conference 2008, Ascona, Switzerland}}}

Martinez F., Cascetta E., Pagliara F., Bierlaire M., Axhausen K. Modeling dominated choice alternatives using the constrained multinomial logit October 06, 2008. European Transport Conference 2008, Leiden, The Netherlands.


@Misc{ETC08CUTOF,
  author = {Francesco Martinez and Ennio Cascetta and Francesca Pagliara and Michel Bierlaire and Kay Axhausen},
  title = {Modeling dominated choice alternatives using the constrained multinomial logit },
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETC08CUTOF.pdf}},
  year = {2008},
  note = {Presented at European Transport Conference 2008, Leiden, The Netherlands}}}

Bierlaire M., Thémans M., Zufferey N. A heuristic for nonlinear global optimization August 26, 2008. Graph and Optimization Meeting 2008, Saint-Maximin La Sainte Baume, France.


@Misc{GOM08,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {A heuristic for nonlinear global optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/GOM08.pdf}},
  year = {2008},
  note = {Presented at Graph and Optimization Meeting 2008, Saint-Maximin La Sainte Baume, France}}}

Bierlaire M., Kaufmann V., Lavadinho S. Swiss Transport Research in Motion June 26, 2008. (Invited lecture)Visionen einer besseren Mobilität, Mobility Academy, TCS, Verkehrshaus, Luzern.


@Misc{TCS08,
  author = {Michel Bierlaire and Vincent Kaufmann and Sonia Lavadinho},
  title = {Swiss Transport Research in Motion},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TCS08.pdf}},
  year = {2008},
  note = {Presented at Visionen einer besseren Mobilit\ät, Mobility Academy, TCS, Verkehrshaus, Luzern}}}

Bierlaire M. The complex nature of route choice models June 19, 2008. (Plenary lecture)Trasporti, Ambiente, Territorio: la ricerca di un nuovo equilibrio, Società Italiana di Economia dei Trasporti e della logistica, Sassari, Italy.


@Misc{SASSARI08,
  author = {Michel Bierlaire},
  title = {The complex nature of route choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/SASSARI08.pdf}},
  year = {2008},
  note = {Presented at Trasporti, Ambiente, Territorio: la ricerca di un nuovo equilibrio, Societ\à Italiana di Economia dei Trasporti e della logistica, Sassari, Italy}}}

Eggenberg N., Salani M., Bierlaire M. Recovery of disrupted airline schedules April 24, 2008. Seminartermin des Forschungs-Centrums Netzindustrien und Infrastruktur (CNI), TU Berlin, Berlin, Germany.


@Misc{BERLIN08,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {Recovery of disrupted airline schedules},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BERLIN08.pdf}},
  year = {2008},
  note = {Presented at Seminartermin des Forschungs-Centrums Netzindustrien und Infrastruktur (CNI), TU Berlin, Berlin, Germany}}}

Eggenberg N., Salani M., Bierlaire M. An algorithm for the recovery of disrupted airline schedules April 09, 2008. Methodological Innovation Seminar, Department of Transport, Danish Technical University, Lyngby, Denmark.


@Misc{DTUETC08,
  author = {Niklaus Eggenberg and Matteo Salani and Michel Bierlaire},
  title = {An algorithm for the recovery of disrupted airline schedules},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DTUETC08.pdf}},
  year = {2008},
  note = {Presented at Methodological Innovation Seminar, Department of Transport, Danish Technical University, Lyngby, Denmark}}}

Bierlaire M., Thémans M., Zufferey N. A heuristic for nonlinear global optimization February 06, 2008. Seminar, Applied Mathematics Dpt, SINTEF, Norwegian University of Science and Technology, Oslo, Norway.


@Misc{OSLO08GO,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {A heuristic for nonlinear global optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/OSLO08GO.pdf}},
  year = {2008},
  note = {Presented at Seminar, Applied Mathematics Dpt, SINTEF, Norwegian University of Science and Technology, Oslo, Norway}}}

Bierlaire M. Route choice models: Introduction and recent developments February 06, 2008. Seminar, Applied Mathematics Dpt, SINTEF, Norwegian University of Science and Technology, Oslo, Norway.


@Misc{OSLO08RC,
  author = {Michel Bierlaire},
  title = {Route choice models: Introduction and recent developments},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/OSLO08RC.pdf}},
  year = {2008},
  note = {Presented at Seminar, Applied Mathematics Dpt, SINTEF, Norwegian University of Science and Technology, Oslo, Norway}}}

Bierlaire M., Frejinger E. Some challenges in route choice modeling February 04, 2008. Seminar, Transport and Economics Dpt, Royal Institute of Technology, Stockholm, Sweden.


@Misc{STOCK08,
  author = {Michel Bierlaire and Emma Frejinger},
  title = {Some challenges in route choice modeling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STOCK08.pdf}},
  year = {2008},
  note = {Presented at Seminar, Transport and Economics Dpt, Royal Institute of Technology, Stockholm, Sweden}}}

Robin T., Bierlaire M., Antonini G., Cruz J. Validation of a discrete choice model of walking behavior January 11, 2008. Seminar of the Centre for Traffic and Transport, Technical University of Denmark, Lyngby, Denmark.


@Misc{DTU08,
  author = {Thomas Robin and Michel Bierlaire and Gianluca Antonini and Javier Cruz},
  title = {Validation of a discrete choice model of walking behavior},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DTU08.pdf}},
  year = {2008},
  note = {Presented at Seminar of the Centre for Traffic and Transport, Technical University of Denmark, Lyngby, Denmark}}}

2007

Bierlaire M. Advances in route choice modelling December 06, 2007. Neue Entwicklungen in der Entscheidungsmodellierung, Institute for Transport Planning and Systems, ETHZ, Zurich, Switzerland.


@Misc{ETHZ07,
  author = {Michel Bierlaire},
  title = {Advances in route choice modelling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETHZ07.pdf}},
  year = {2007},
  note = {Presented at Neue Entwicklungen in der Entscheidungsmodellierung, Institute for Transport Planning and Systems, ETHZ, Zurich, Switzerland}}}

Bierlaire M. A short discussion about travel demand models December 05, 2007. Seminar, Instituto Superior Tecnico, Universidade Tecnina da Lisboa, Lisbon, Portugal.


@Misc{LISBON07,
  author = {Michel Bierlaire},
  title = {A short discussion about travel demand models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LISBON07.pdf}},
  year = {2007},
  note = {Presented at Seminar, Instituto Superior Tecnico, Universidade Tecnina da Lisboa, Lisbon, Portugal}}}

Bierlaire M. Modeling the human dimension of transport November 29, 2007. Leçon inaugurale, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.


@Misc{INAUG07,
  author = {Michel Bierlaire},
  title = {Modeling the human dimension of transport},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INAUG07.pdf}},
  year = {2007},
  note = {Presented at Le\çon inaugurale, Ecole Polytechnique F\éd\érale de Lausanne, Lausanne, Switzerland}}}

Bierlaire M. Modeling the walking behavior of pedestrians November 19, 2007. Workshop on Locomotion Models in Animation, Robotics, and Biomechanics, Virtual Reality Lab, EPFL, Lausanne, Switzerland.


@Misc{VRLAB07,
  author = {Michel Bierlaire},
  title = {Modeling the walking behavior of pedestrians},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/VRLAB07.pdf}},
  year = {2007},
  note = {Presented at Workshop on Locomotion Models in Animation, Robotics, and Biomechanics, Virtual Reality Lab, EPFL, Lausanne, Switzerland}}}

Fosgerau M., Bierlaire M. Discrete choice models with multiplicative error terms October 17, 2007. European Transport Conference, Leeuwenhorst, The Netherlands.


@Misc{MBI-ETC07,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Discrete choice models with multiplicative error terms},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MBI-ETC07.pdf}},
  year = {2007},
  note = {Presented at European Transport Conference, Leeuwenhorst, The Netherlands}}}

Fosgerau M., Bierlaire M. Circumventing the problem of the scale: discrete choice models with multiplicative error terms August 30, 2007. Third Workshop on Discrete Choice Models, Transport and Mobility Laboratory, EPFL, EPFL, Lausanne, Switzerland.


@Misc{BierDca07,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Circumventing the problem of the scale: discrete choice models with multiplicative error terms},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BierDca07.pdf}},
  year = {2007},
  note = {Presented at Third Workshop on Discrete Choice Models, Transport and Mobility Laboratory, EPFL, EPFL, Lausanne, Switzerland}}}

Bierlaire M. BIOGEME: an open source package for the estimation of advanced discrete choice models July 17, 2007. 6th International Congress on Industrial and Applied Mathematics, Zuerich, Switzerland.


@Misc{ICIAM07,
  author = {Michel Bierlaire},
  title = {BIOGEME: an open source package for the estimation of advanced discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ICIAM07.pdf}},
  year = {2007},
  note = {Presented at 6th International Congress on Industrial and Applied Mathematics, Zuerich, Switzerland}}}

Bierlaire M. Modelling and forecasting human behaviours: new challenges and opportunities July 11, 2007. (Invited lecture)R and D Management Conference, Nestlé, Lausanne, Switzerland.


@Misc{NESTLE07,
  author = {Michel Bierlaire},
  title = {Modelling and forecasting human behaviours: new challenges and opportunities},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NESTLE07.pdf}},
  year = {2007},
  note = {Presented at R and D Management Conference, Nestl\é, Lausanne, Switzerland}}}

Bierlaire M., Frejinger E. Three challenges in route choice modeling July 04, 2007. Seminar, Technical University of Denmark, Copenhagen, Denmark.


@Misc{DTU07,
  author = {Michel Bierlaire and Emma Frejinger},
  title = {Three challenges in route choice modeling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DTU07.pdf}},
  year = {2007},
  note = {Presented at Seminar, Technical University of Denmark, Copenhagen, Denmark}}}

Spassov I., Bierlaire M., Merminod B. Map-based Autonomous Personal Localization and Tracking June 07, 2007. TRISTAN VI, Phuket, Thailand.


@Misc{TRISTAN-MB,
  author = {Ivan Spassov and Michel Bierlaire and Bertrand Merminod},
  title = {Map-based Autonomous Personal Localization and Tracking},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRISTAN-MB.pdf}},
  year = {2007},
  note = {Presented at TRISTAN VI, Phuket, Thailand}}}

Bierlaire M., Bolduc D., McFadden D. The estimation of multivariate extreme value models from choice-based samples May 09, 2007. (Invited lecture)Modèles de choix discrets. Applications en transport et marketing, ESSEC Business School, Cergy-Pontoise, France.


@Misc{CERGY07,
  author = {Michel Bierlaire and Denis Bolduc and Dan McFadden},
  title = {The estimation of multivariate extreme value models from choice-based samples},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CERGY07.pdf}},
  year = {2007},
  note = {Presented at Mod\èles de choix discrets. Applications en transport et marketing, ESSEC Business School, Cergy-Pontoise, France}}}

Bierlaire M., Thémans M., Zufferey N. A heuristic for global nonlinear optimization April 25, 2007. Séminaire du Groupe de Recherche sur les Transports, FUNDP - Université de Namur, Namur, Belgium.


@Misc{Fundp07,
  author = {Michel Bierlaire and Micha\"el Th\'emans and Nicolas Zufferey},
  title = {A heuristic for global nonlinear optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/Fundp07.pdf}},
  year = {2007},
  note = {Presented at S\éminaire du Groupe de Recherche sur les Transports, FUNDP - Universit\é de Namur, Namur, Belgium}}}

Bierlaire M. Discrete choice models and heuristics for global nonlinear optimization April 24, 2007. Mathematical Programming Seminar, Center for Operations Research and Econometrics, Louvain-La-Neuve, Belgium.


@Misc{BierCore07,
  author = {Michel Bierlaire},
  title = {Discrete choice models and heuristics for global nonlinear optimization},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BierCore07.pdf}},
  year = {2007},
  note = {Presented at Mathematical Programming Seminar, Center for Operations Research and Econometrics, Louvain-La-Neuve, Belgium}}}

2006

Bierlaire M. Divers aspects de la mod�lisation de la demande en transport December 14, 2006. Séminaire du Laboratoire Ville, Mobilité et Transports, Ecole Nationale des Ponts et Chaussées, Marne la Vallée, France.


@Misc{ENPC06,
  author = {Michel Bierlaire},
  title = {Divers aspects de la mod\'elisation de la demande en transport},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ENPC06.pdf}},
  year = {2006},
  note = {Presented at S\éminaire du Laboratoire Ville, Mobilit\é et Transports, Ecole Nationale des Ponts et Chauss\ées, Marne la Vall\ée, France}}}

Fosgerau M., Bierlaire M. Circumventing the problem of the scale: discrete choice models with multiplicative error terms November 07, 2006. Seminar, Intelligent Transportation Systems Program, Massachussetts Institute of Technology, Cambridge, Ma (USA).


@Misc{MIT06MICHE,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Circumventing the problem of the scale: discrete choice models with multiplicative error terms},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT06MICHE.pdf}},
  year = {2006},
  note = {Presented at Seminar, Intelligent Transportation Systems Program, Massachussetts Institute of Technology, Cambridge, Ma (USA)}}}

Bierlaire M. Recent methodological developments in discrete choice models September 30, 2006. (Invited lecture)Metodi, modelli e tecnologie dell'informazione a supporto delle decisioni, Università di Napoli – Federico II, Procida, Italy.


@Misc{PROCIDA-06,
  author = {Michel Bierlaire},
  title = {Recent methodological developments in discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/PROCIDA-06.pdf}},
  year = {2006},
  note = {Presented at Metodi, modelli e tecnologie dell'informazione a supporto delle decisioni, Universit\à di Napoli \– Federico II, Procida, Italy}}}

Bierlaire M., Bolduc D., McFadden D. The estimation of generalized extreme value models from choice-based samples September 20, 2006. European Transport Conference, Strasbourg, France.


@Misc{ETC-GEV,
  author = {Michel Bierlaire and Denis Bolduc and Dan McFadden},
  title = {The estimation of generalized extreme value models from choice-based samples},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETC-GEV.pdf}},
  year = {2006},
  note = {Presented at European Transport Conference, Strasbourg, France}}}

Bierlaire M., Thémans M. Solving singularity issues in the estimation of econometric models September 19, 2006. European Transport Conference, Strasbourg, France.


@Misc{ETC06-MIC,
  author = {Michel Bierlaire and Micha\"el Th\'emans},
  title = {Solving singularity issues in the estimation of econometric models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETC06-MIC.pdf}},
  year = {2006},
  note = {Presented at European Transport Conference, Strasbourg, France}}}

Antonini G., Bierlaire M. Mod�lisation du comportement de marche des pi�tons June 06, 2006. Séminaire du GRT, Facultés Universitaires Notre-Dame de la Paix, Namur, Belgium.


@Misc{FUNDP06,
  author = {Gianluca Antonini and Michel Bierlaire},
  title = {Mod\'elisation du comportement de marche des pi\'etons},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/FUNDP06.pdf}},
  year = {2006},
  note = {Presented at S\éminaire du GRT, Facult\és Universitaires Notre-Dame de la Paix, Namur, Belgium}}}

Antonini G., Bierlaire M. Discrete Choice Models for Pedestrian Walking Behavior May 23, 2006. Seminar on Cognitive Vision in Traffic analyses, Lund University, Lund, Sweden.


@Misc{LUND06,
  author = {Gianluca Antonini and Michel Bierlaire},
  title = {Discrete Choice Models for Pedestrian Walking Behavior},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LUND06.pdf}},
  year = {2006},
  note = {Presented at Seminar on Cognitive Vision in Traffic analyses, Lund University, Lund, Sweden}}}

Hess S., Bierlaire M., Polak J. Discrete mixtures models March 15, 2006. Swiss Transportation Research Conference, Ascona, Switzerland.


@Misc{STRC06-DIS,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Discrete mixtures models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC06-DIS.pdf}},
  year = {2006},
  note = {Presented at Swiss Transportation Research Conference, Ascona, Switzerland}}}

Hess S., Bierlaire M., Polak J. Confounding between substitution patterns and random taste heterogeneity March 15, 2006. Swiss Transportation Research Conference, Ascona, Switzerland.


@Misc{STRC06-HES,
  author = {Stephane Hess and Michel Bierlaire and John Polak},
  title = {Confounding between substitution patterns and random taste heterogeneity},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC06-HES.pdf}},
  year = {2006},
  note = {Presented at Swiss Transportation Research Conference, Ascona, Switzerland}}}

Fosgerau M., Bierlaire M. Extending and testing mixtures of the multinomial logit model March 15, 2006. Swiss Transportation Research Conference, Ascona, Switzerland.


@Misc{STRC06-MOG,
  author = {Mogens Fosgerau and Michel Bierlaire},
  title = {Extending and testing mixtures of the multinomial logit model},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC06-MOG.pdf}},
  year = {2006},
  note = {Presented at Swiss Transportation Research Conference, Ascona, Switzerland}}}

Antonini G., Bierlaire M. Modelling pedestrian interactions with discrete choice models March 15, 2006. Swiss Transportation Research Conference, Ascona, Switzerland.


@Misc{STRC06-PED,
  author = {Gianluca Antonini and Michel Bierlaire},
  title = {Modelling pedestrian interactions with discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC06-PED.pdf}},
  year = {2006},
  note = {Presented at Swiss Transportation Research Conference, Ascona, Switzerland}}}

2005

Bierlaire M., Abbe E., Toledo T. Normalization and correlation of cross-nested logit models October 04, 2005. European Transport Conference, Strasbourg, France.


@Misc{ETC05,
  author = {Michel Bierlaire and Emmanuel Abbe and Tomer Toledo},
  title = {Normalization and correlation of cross-nested logit models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETC05.pdf}},
  year = {2005},
  note = {Presented at European Transport Conference, Strasbourg, France}}}

Bierlaire M., Bolduc D., McFadden D. Sampling issues with GEV models August 24, 2005. Conference of the European Regional Science Association, Amsterdam, The Netherlands.


@Misc{ERSA05,
  author = {Michel Bierlaire and Denis Bolduc and Dan McFadden},
  title = {Sampling issues with GEV models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ERSA05.pdf}},
  year = {2005},
  note = {Presented at Conference of the European Regional Science Association, Amsterdam, The Netherlands}}}

Bierlaire M. Transportation analysis: a bottom-up approach July 26, 2005. Seminar on Transportation Engineering, ENAC EPFL, Lausanne, Switzerland.


@Misc{ENAC05,
  author = {Michel Bierlaire},
  title = {Transportation analysis: a bottom-up approach},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ENAC05.pdf}},
  year = {2005},
  note = {Presented at Seminar on Transportation Engineering, ENAC EPFL, Lausanne, Switzerland}}}

Bierlaire M. Mixture of discrete choice models: an application to Value of Travel Time Savings analysis July 20, 2005. Seminar, Centre de recherche sur les transports, Montréal, Canada.


@Misc{CDN05,
  author = {Michel Bierlaire},
  title = {Mixture of discrete choice models: an application to Value of Travel Time Savings analysis},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CDN05.pdf}},
  year = {2005},
  note = {Presented at Seminar, Centre de recherche sur les transports, Montr\éal, Canada}}}

Bierlaire M. Estimating advanced random utility models with BIOGEME May 11, 2005. (Invited lecture)TRAIL Symposium on "The Reliability of Traveling and the Robustness of Transport Systems", Delft, The Netherlands.


@Misc{TRA05-BIOG,
  author = {Michel Bierlaire},
  title = {Estimating advanced random utility models with BIOGEME},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRA05-BIOG.pdf}},
  year = {2005},
  note = {Presented at TRAIL Symposium on \"The Reliability of Traveling and the Robustness of Transport Systems\", Delft, The Netherlands}}}

Bierlaire M. Capturing complex transportation behaviors with advanced random utility models May 09, 2005. TRAIL Symposium on "The Reliability of Traveling and the Robustness of Transport Systems", Delft, The Netherlands.


@Misc{TRA05-CAPT,
  author = {Michel Bierlaire},
  title = {Capturing complex transportation behaviors with advanced random utility models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRA05-CAPT.pdf}},
  year = {2005},
  note = {Presented at TRAIL Symposium on \"The Reliability of Traveling and the Robustness of Transport Systems\", Delft, The Netherlands}}}

2004

Bierlaire M. Introduction to mixtures of Generalized Extreme Value models: models and estimation December 02, 2004. (Invited lecture), Imperial College London, Centre for Transport Studies, London, United Kingdom.


@Misc{ICL04,
  author = {Michel Bierlaire},
  title = {Introduction to mixtures of Generalized Extreme Value models: models and estimation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ICL04.pdf}},
  year = {2004},
  note = {Presented at , Imperial College London, Centre for Transport Studies, London, United Kingdom}}}

Bierlaire M., Antonini G. Mod�les de d�placement pour la simulation de pi�tons November 30, 2004. ITS Télématique, Lavoc - EPFL, Lausanne, Switzerland.


@Misc{LAVOC04,
  author = {Michel Bierlaire and Gianluca Antonini},
  title = {Mod\`eles de d\'eplacement pour la simulation de pi\'etons},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LAVOC04.pdf}},
  year = {2004},
  note = {Presented at ITS T\él\ématique, Lavoc - EPFL, Lausanne, Switzerland}}}

Bierlaire M. Estimation of mixed generalized extreme value models November 04, 2004. Seminar of statistics, Faculty of Economics and Applied Economics, Katholieke Universiteit Leuven, Leuven, Belgium.


@Misc{LEUV04,
  author = {Michel Bierlaire},
  title = {Estimation of mixed generalized extreme value models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LEUV04.pdf}},
  year = {2004},
  note = {Presented at Seminar of statistics, Faculty of Economics and Applied Economics, Katholieke Universiteit Leuven, Leuven, Belgium}}}

Bierlaire M. R�solution de probl�mes non lin�aires bruit�s de grande taille August 18, 2004. (Plenary lecture)FRANCORO - Conférence Internationale en Recherche Opérationnelle, Université de Fribourg, Fribourg, Switzerland.


@Misc{FRANCORO04,
  author = {Michel Bierlaire},
  title = {R\'esolution de probl\`emes non lin\'eaires bruit\'es de grande taille},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/FRANCORO04.pdf}},
  year = {2004},
  note = {Presented at FRANCORO - Conf\érence Internationale en Recherche Op\érationnelle, Universit\é de Fribourg, Fribourg, Switzerland}}}

Bierlaire M. Introduction to discrete choice models July 12, 2004. (Invited lecture), University of Peruggia, Peruggia, Italy.


@Misc{PERUG04,
  author = {Michel Bierlaire},
  title = {Introduction to discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/PERUG04.pdf}},
  year = {2004},
  note = {Presented at , University of Peruggia, Peruggia, Italy}}}

Bierlaire M. A New Algorithm to Solve Large-scale Fixed-point Problems June 13, 2004. 5th Triennal Symposium of Transportation Analysis, Le Gosier, Guadeloupe, French West Indies.


@Misc{GUAD04,
  author = {Michel Bierlaire},
  title = {A New Algorithm to Solve Large-scale Fixed-point Problems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/GUAD04.pdf}},
  year = {2004},
  note = {Presented at 5th Triennal Symposium of Transportation Analysis, Le Gosier, Guadeloupe, French West Indies}}}

Bierlaire M. Modelling choices using Biogeme June 11, 2004. IVT-Seminar, Wert der Zeit und des Verlaesslichkeit in der Schweiz, ETHZ, Zürich, Switzerland.


@Misc{ZHIVT04,
  author = {Michel Bierlaire},
  title = {Modelling choices using Biogeme},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ZHIVT04.pdf}},
  year = {2004},
  note = {Presented at IVT-Seminar, Wert der Zeit und des Verlaesslichkeit in der Schweiz, ETHZ, Z\ürich, Switzerland}}}

Bierlaire M. The Mixed Network GEV model April 02, 2004. Workshop on Computational Econometrics and Statistics, Neuchâtel, Switzerland.


@Misc{NE04-GEV,
  author = {Michel Bierlaire},
  title = {The Mixed Network GEV model},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NE04-GEV.pdf}},
  year = {2004},
  note = {Presented at Workshop on Computational Econometrics and Statistics, Neuch\âtel, Switzerland}}}

Bierlaire M. Solving large scale systems of nonlinear equations February 15, 2004. International Conference on Optimization, Lutherstadt Wittenberg, Land Sachsen-Anhalt, DE.


@Misc{ICO04,
  author = {Michel Bierlaire},
  title = {Solving large scale systems of nonlinear equations},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ICO04.pdf}},
  year = {2004},
  note = {Presented at International Conference on Optimization, Lutherstadt Wittenberg, Land Sachsen-Anhalt, DE}}}

Bierlaire M. Solving Large-Scale Systems of Noisy Nonlinear Equations January 19, 2004. (Invited lecture)Research seminar on quantitative methods in economics, University of Zurich, Zurich, Switzerland.


@Misc{UNIZH04,
  author = {Michel Bierlaire},
  title = {Solving Large-Scale Systems of Noisy Nonlinear Equations},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/UNIZH04.pdf}},
  year = {2004},
  note = {Presented at Research seminar on quantitative methods in economics, University of Zurich, Zurich, Switzerland}}}

2003

Bierlaire M. Modeling the content of a scene: a behavioral approach October 06, 2003. Summer Institute of the NCCR on Multimodal Information Management, Crans-Montana, Switzerland.


@Misc{IM203-MOD,
  author = {Michel Bierlaire},
  title = {Modeling the content of a scene: a behavioral approach},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IM203-MOD.pdf}},
  year = {2003},
  note = {Presented at Summer Institute of the NCCR on Multimodal Information Management, Crans-Montana, Switzerland}}}

Bierlaire M. A new class of robust methods to solve noisy systems of nonlinear equations August 18, 2003. 18th International Symposium on Mathematical Programming, Copenhagen, Denmark.


@Misc{ISMP03,
  author = {Michel Bierlaire},
  title = {A new class of robust methods to solve noisy systems of nonlinear equations},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ISMP03.pdf}},
  year = {2003},
  note = {Presented at 18th International Symposium on Mathematical Programming, Copenhagen, Denmark}}}

Bierlaire M. Behavioral Dynamics for Pedestrians August 10, 2003. 10th International Conference on Travel Behaviour Research, Lucerne, Switzerland.


@Misc{ICTBR03,
  author = {Michel Bierlaire},
  title = {Behavioral Dynamics for Pedestrians},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ICTBR03.pdf}},
  year = {2003},
  note = {Presented at 10th International Conference on Travel Behaviour Research, Lucerne, Switzerland}}}

Bierlaire M. A new method to solve large-scale systems of nonlinear equations with noise August 01, 2003. Seminar, Economic Department, University Laval, Laval, Québec.


@Misc{LAVAL03,
  author = {Michel Bierlaire},
  title = {A new method to solve large-scale systems of nonlinear equations with noise},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LAVAL03.pdf}},
  year = {2003},
  note = {Presented at Seminar, Economic Department, University Laval, Laval, Qu\ébec}}}

Bierlaire M. Behavioral issues in traffic simulation June 11, 2003. Seminar on traffic simulation, EPFL, LAVOC, Lausanne, Switzerland.


@Misc{LAVOC03,
  author = {Michel Bierlaire},
  title = {Behavioral issues in traffic simulation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LAVOC03.pdf}},
  year = {2003},
  note = {Presented at Seminar on traffic simulation, EPFL, LAVOC, Lausanne, Switzerland}}}

Bierlaire M. Discrete choice models: formulations and estimations May 28, 2003. (Invited lecture), Università della Svizzera Italiana, Instituto Ricerche Economiche, Lugano, Switzerland.


@Misc{LUGANO03,
  author = {Michel Bierlaire},
  title = {Discrete choice models: formulations and estimations},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LUGANO03.pdf}},
  year = {2003},
  note = {Presented at , Universit\à della Svizzera Italiana, Instituto Ricerche Economiche, Lugano, Switzerland}}}

Bierlaire M. Behavioral model-based scene analysis February 05, 2003. Workshop of the NCCR on Interactive Multimodal Information Management, EPFL, Lausanne, Switzerland.


@Misc{IM203-BEH,
  author = {Michel Bierlaire},
  title = {Behavioral model-based scene analysis},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IM203-BEH.pdf}},
  year = {2003},
  note = {Presented at Workshop of the NCCR on Interactive Multimodal Information Management, EPFL, Lausanne, Switzerland}}}

2002

Bierlaire M. Mathematical modeling of human behavior: theory and practice November 21, 2002. Basis Science Faculty Day, EPFL, Lausanne, Switzerland.


@Misc{FSB02,
  author = {Michel Bierlaire},
  title = {Mathematical modeling of human behavior: theory and practice},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/FSB02.pdf}},
  year = {2002},
  note = {Presented at Basis Science Faculty Day, EPFL, Lausanne, Switzerland}}}

Bierlaire M. BIOGEME: logiciel gratuit pour l'estimation de mod�les de choix discret October 24, 2002. Journées des transports, Université de Cergy-Pontoise, Cergy, Paris.


@Misc{JT02-BIOG,
  author = {Michel Bierlaire},
  title = {BIOGEME: logiciel gratuit pour l'estimation de mod\`eles de choix discret},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/JT02-BIOG.pdf}},
  year = {2002},
  note = {Presented at Journ\ées des transports, Universit\é de Cergy-Pontoise, Cergy, Paris}}}

Bierlaire M. LSQR Algorithm for real-time OD estimation and prediction October 13, 2002. First Greek Transportation Research Conference, Athen, Greece.


@Misc{GTRC02,
  author = {Michel Bierlaire},
  title = {LSQR Algorithm for real-time OD estimation and prediction},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/GTRC02.pdf}},
  year = {2002},
  note = {Presented at First Greek Transportation Research Conference, Athen, Greece}}}

Bierlaire M. Behavioral dynamics of pedestrians: state-of-the-art and applications to scene analysis October 03, 2002. Summer Institute of the NCCR on Interactive Multimodal Information Management, Martigny, Switzerland.


@Misc{IM202,
  author = {Michel Bierlaire},
  title = {Behavioral dynamics of pedestrians: state-of-the-art and applications to scene analysis},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IM202.pdf}},
  year = {2002},
  note = {Presented at Summer Institute of the NCCR on Interactive Multimodal Information Management, Martigny, Switzerland}}}

Bierlaire M. BIOGEME: an open source package for the estimation of GEV models September 03, 2002. Seminar, Centre for traffic and Transport, Technical Universty of Denmark, Lyngby, Denmark.


@Misc{LYNGBY02,
  author = {Michel Bierlaire},
  title = {BIOGEME: an open source package for the estimation of GEV models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/LYNGBY02.pdf}},
  year = {2002},
  note = {Presented at Seminar, Centre for traffic and Transport, Technical Universty of Denmark, Lyngby, Denmark}}}

Bierlaire M. Analyse de la demande en transport: Mod�les agr�g�s et d�sagr�g�s May 24, 2002. Séminaires INRETS, Arcueil, France.


@Misc{INRETS02,
  author = {Michel Bierlaire},
  title = {Analyse de la demande en transport: Mod\`eles agr\'eg\'es et d\'esagr\'eg\'es},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INRETS02.pdf}},
  year = {2002},
  note = {Presented at S\éminaires INRETS, Arcueil, France}}}

Bierlaire M. DynaMIT: from theory to practice March 20, 2002. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC02-DYN,
  author = {Michel Bierlaire},
  title = {DynaMIT: from theory to practice},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC02-DYN.pdf}},
  year = {2002},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. The Network GEV model March 20, 2002. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC02-GEV,
  author = {Michel Bierlaire},
  title = {The Network GEV model},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC02-GEV.pdf}},
  year = {2002},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. Simulation-based evaluation on the impact of Telematics in the Lausanne area - a pilot study March 20, 2002. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC02-LSN,
  author = {Michel Bierlaire},
  title = {Simulation-based evaluation on the impact of Telematics in the Lausanne area - a pilot study},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC02-LSN.pdf}},
  year = {2002},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. An efficient algorithm for real-time estimation and prediction of dynamic OD table March 20, 2002. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC02-OD,
  author = {Michel Bierlaire},
  title = {An efficient algorithm for real-time estimation and prediction of dynamic OD table},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC02-OD.pdf}},
  year = {2002},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. Decision-Aid for Traffic Diversion January 13, 2002. Transportation Research Board 81st Annual Meeting, Washington, USA.


@Misc{WASH02,
  author = {Michel Bierlaire},
  title = {Decision-Aid for Traffic Diversion},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/WASH02.pdf}},
  year = {2002},
  note = {Presented at Transportation Research Board 81st Annual Meeting, Washington, USA}}}

2001

Bierlaire M. Estimation of GEV models: issues and implemantation June 01, 2001. (Invited lecture)UC Berkeley Invitational Choice Symposium, UC Berkeley, Pacific Grove (Ca), USA.


@Misc{PACGRO01,
  author = {Michel Bierlaire},
  title = {Estimation of GEV models: issues and implemantation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/PACGRO01.pdf}},
  year = {2001},
  note = {Presented at UC Berkeley Invitational Choice Symposium, UC Berkeley, Pacific Grove (Ca), USA}}}

Bierlaire M. New algorithmic approaches for the anticipatory guidance generation problem March 01, 2001. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC01-AGG,
  author = {Michel Bierlaire},
  title = {New algorithmic approaches for the anticipatory guidance generation problem},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC01-AGG.pdf}},
  year = {2001},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. A general formulation of the cross-nested logit model March 01, 2001. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC01-MB,
  author = {Michel Bierlaire},
  title = {A general formulation of the cross-nested logit model},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC01-MB.pdf}},
  year = {2001},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. Papabiles: simulation-based evaluation of the impact of telematics in the Lausanne area: a pilot study March 01, 2001. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC01-PAP,
  author = {Michel Bierlaire},
  title = {Papabiles: simulation-based evaluation of the impact of telematics in the Lausanne area: a pilot study},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC01-PAP.pdf}},
  year = {2001},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. Acceptance of modal innovation: the case of the SwissMetro March 01, 2001. Swiss Transport Research Conference, Ascona, Switzerland.


@Misc{STRC01-SM,
  author = {Michel Bierlaire},
  title = {Acceptance of modal innovation: the case of the SwissMetro},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/STRC01-SM.pdf}},
  year = {2001},
  note = {Presented at Swiss Transport Research Conference, Ascona, Switzerland}}}

Bierlaire M. Estimation of GEV and Cross-Nested Logit Models February 15, 2001. (Invited lecture)Workshop on Route Choice Models, Massachusetts Institute of Technology, Cambridge (Ma), USA.


@Misc{MIT01,
  author = {Michel Bierlaire},
  title = {Estimation of GEV and Cross-Nested Logit Models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT01.pdf}},
  year = {2001},
  note = {Presented at Workshop on Route Choice Models, Massachusetts Institute of Technology, Cambridge (Ma), USA}}}

Bierlaire M. Introduction � l'optimisation non lin�aire January 01, 2001. 3ième Journée de l'automatique, Département de Génie Mécanique, EPFL, Lausanne, Switzerland.


@Misc{3JA00,
  author = {Michel Bierlaire},
  title = {Introduction \`a l'optimisation non lin\'eaire},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/3JA00.pdf}},
  year = {2001},
  note = {Presented at 3i\ème Journ\ée de l'automatique, D\épartement de G\énie M\écanique, EPFL, Lausanne, Switzerland}}}

Bierlaire M. Real-Time Systems for ITS Applications and consistency in predictive informations systems January 01, 2001. MIT Summer School, Massachusetts Institute of Technology, Cambridge (Ma), USA.


@Misc{MIT01ITS,
  author = {Michel Bierlaire},
  title = {Real-Time Systems for ITS Applications and consistency in predictive informations systems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT01ITS.pdf}},
  year = {2001},
  note = {Presented at MIT Summer School, Massachusetts Institute of Technology, Cambridge (Ma), USA}}}

2000

Bierlaire M. General framework for Dynamic Demand Simulation January 01, 2000. International Symposium on Mathematical Programming, Atlanta, USA.


@Misc{ATL00-DDS,
  author = {Michel Bierlaire},
  title = {General framework for Dynamic Demand Simulation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ATL00-DDS.pdf}},
  year = {2000},
  note = {Presented at International Symposium on Mathematical Programming, Atlanta, USA}}}

Bierlaire M. Computational issues in anticipatory route guidance generation January 01, 2000. International Symposium on Mathematical Programming, Atlanta, USA.


@Misc{ATL00-RGG,
  author = {Michel Bierlaire},
  title = {Computational issues in anticipatory route guidance generation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ATL00-RGG.pdf}},
  year = {2000},
  note = {Presented at International Symposium on Mathematical Programming, Atlanta, USA}}}

Bierlaire M. Real-Time Systems for ITS Applications and consistency in predictive information systems January 01, 2000. MIT Summer School, Massachusetts Institute of technology, Cambridge (Ma), USA.


@Misc{MIT00ITS,
  author = {Michel Bierlaire},
  title = {Real-Time Systems for ITS Applications and consistency in predictive information systems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT00ITS.pdf}},
  year = {2000},
  note = {Presented at MIT Summer School, Massachusetts Institute of technology, Cambridge (Ma), USA}}}

1999

Bierlaire M. DynaMIT: Dynamic Network Assignment for Management of Information to Travelers December 02, 1999. IVT Seminar neue Simulationsmodelle der Verkehrsnachfrage in Netzen, ETHZ, Zürich, Switzerland.


@Misc{IVT99-DYNA,
  author = {Michel Bierlaire},
  title = {DynaMIT: Dynamic Network Assignment for Management of Information to Travelers},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IVT99-DYNA.pdf}},
  year = {1999},
  note = {Presented at IVT Seminar neue Simulationsmodelle der Verkehrsnachfrage in Netzen, ETHZ, Z\ürich, Switzerland}}}

Bierlaire M. Un laboratoire de simulation pour l'�valuation de syst�mes dynamiques de gestion du trafic December 01, 1999. IML, Ecole Nationale des Ponts et Chaussées, Institut International de Management pour la Logistique, Paris, France.


@Misc{IML99F,
  author = {Michel Bierlaire},
  title = {Un laboratoire de simulation pour l'\'evaluation de syst\`emes dynamiques de gestion du trafic},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IML99F.pdf}},
  year = {1999},
  note = {Presented at IML, Ecole Nationale des Ponts et Chauss\ées, Institut International de Management pour la Logistique, Paris, France}}}

Bierlaire M. The anticipatory route guidance generation problem. Theory and Practice November 01, 1999. Audit-Symposium, EPFL, Department of Mathematics, Lausanne, Switzerland.


@Misc{DMA99,
  author = {Michel Bierlaire},
  title = {The anticipatory route guidance generation problem. Theory and Practice},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DMA99.pdf}},
  year = {1999},
  note = {Presented at Audit-Symposium, EPFL, Department of Mathematics, Lausanne, Switzerland}}}

Bierlaire M. SILS: Shaping and Improving Logistics Systems October 18, 1999. Colloque Nouvelles technologies de l'information et de la communication, Paris. France.


@Misc{SILS99,
  author = {Michel Bierlaire},
  title = {SILS: Shaping and Improving Logistics Systems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/SILS99.pdf}},
  year = {1999},
  note = {Presented at Colloque Nouvelles technologies de l'information et de la communication, Paris. France}}}

Bierlaire M. Investigation of Route Guidance Generation Issues by Simulation with DynaMIT July 19, 1999. 14th International Symposium on Transportation and Traffic Theory, Jerusalem, Israël.


@Misc{ISR99,
  author = {Michel Bierlaire},
  title = {Investigation of Route Guidance Generation Issues by Simulation with DynaMIT},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ISR99.pdf}},
  year = {1999},
  note = {Presented at 14th International Symposium on Transportation and Traffic Theory, Jerusalem, Isra\ël}}}

Bierlaire M. The Route Guidance Generation Problem May 10, 1999. Optimization Days, Montréal, Canada.


@Misc{OD99-ROUTE,
  author = {Michel Bierlaire},
  title = {The Route Guidance Generation Problem},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/OD99-ROUTE.pdf}},
  year = {1999},
  note = {Presented at Optimization Days, Montr\éal, Canada}}}

Bierlaire M. Real-Time Simulation of Traffic Demand/Supply Interactions within DynaMIT May 10, 1999. Optimization Days, Montréal, Canada.


@Misc{OD99-SIMUL,
  author = {Michel Bierlaire},
  title = {Real-Time Simulation of Traffic Demand/Supply Interactions within DynaMIT},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/OD99-SIMUL.pdf}},
  year = {1999},
  note = {Presented at Optimization Days, Montr\éal, Canada}}}

Bierlaire M. DynaMIT: un syst�me en temps r�el pour la pr�diction du trafic et la g�n�ration d'information pour les conducteurs April 02, 1999. Groupe de recherche sur les Transports, Département de Mathématiques, Université de Namur, Namur, Belgium.


@Misc{FUNDP99,
  author = {Michel Bierlaire},
  title = {DynaMIT: un syst\`eme en temps r\'eel pour la pr\'ediction du trafic et la g\'en\'eration d'information pour les conducteurs},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/FUNDP99.pdf}},
  year = {1999},
  note = {Presented at Groupe de recherche sur les Transports, D\épartement de Math\ématiques, Universit\é de Namur, Namur, Belgium}}}

Bierlaire M. Un laboratoire de simulation pour l'�valuation de syst�mes dynamiques de gestion du trafic April 01, 1999. IML course, Institut International de Management pour la Logistique, EPFL, Lausanne, Switzerland.


@Misc{IML99CH,
  author = {Michel Bierlaire},
  title = {Un laboratoire de simulation pour l'\'evaluation de syst\`emes dynamiques de gestion du trafic},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IML99CH.pdf}},
  year = {1999},
  note = {Presented at IML course, Institut International de Management pour la Logistique, EPFL, Lausanne, Switzerland}}}

Bierlaire M. Real-Time Systems for ITS Applications and consistency in predictive information Systems January 01, 1999. MIT Summer School, Massachusetts Institute of Technology, Cambridge (Ma), USA.


@Misc{MIT99ITS,
  author = {Michel Bierlaire},
  title = {Real-Time Systems for ITS Applications and consistency in predictive information Systems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT99ITS.pdf}},
  year = {1999},
  note = {Presented at MIT Summer School, Massachusetts Institute of Technology, Cambridge (Ma), USA}}}

1998

Bierlaire M. Algorithmic aspects of discrete choice modelling November 12, 1998. Colloquium in Combinatorics, Geometric Algorithms and Optimization, ETHZ, Zürich, Switzerland.


@Misc{ETHZ98,
  author = {Michel Bierlaire},
  title = {Algorithmic aspects of discrete choice modelling},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ETHZ98.pdf}},
  year = {1998},
  note = {Presented at Colloquium in Combinatorics, Geometric Algorithms and Optimization, ETHZ, Z\ürich, Switzerland}}}

Bierlaire M. La simulation du trafic: pourquoi et comment? October 06, 1998. Colloque en mémoire du Professeur Charles Rapin, EPFL, Lausanne, Switzerland.


@Misc{EPFL98-RAP,
  author = {Michel Bierlaire},
  title = {La simulation du trafic: pourquoi et comment?},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/EPFL98-RAP.pdf}},
  year = {1998},
  note = {Presented at Colloque en m\émoire du Professeur Charles Rapin, EPFL, Lausanne, Switzerland}}}

Bierlaire M. DynaMIT: a simulation-based system for traffic prediction and guidance generation June 17, 1998. TRISTAN III, San Juan, Porto-Rico.


@Misc{TRISTAN98,
  author = {Michel Bierlaire},
  title = {DynaMIT: a simulation-based system for traffic prediction and guidance generation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRISTAN98.pdf}},
  year = {1998},
  note = {Presented at TRISTAN III, San Juan, Porto-Rico}}}

Bierlaire M. Software Design Aspects of DynaMIT: Dynamic Network Assignement for the Management of Information to Travelers April 26, 1998. INFORMS National meeting, Montréal, Canada.


@Misc{INFO98-MIT,
  author = {Michel Bierlaire},
  title = {Software Design Aspects of DynaMIT: Dynamic Network Assignement for the Management of Information to Travelers},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INFO98-MIT.pdf}},
  year = {1998},
  note = {Presented at INFORMS National meeting, Montr\éal, Canada}}}

Bierlaire M. Dynamic Network Assignment for Management of Information to Travelers Real-Time System for Traffic Prediction and Guidance Generation April 26, 1998. INFORMS National meeting, Montréal, Canada.


@Misc{INFORMS98,
  author = {Michel Bierlaire},
  title = {Dynamic Network Assignment for Management of Information to Travelers Real-Time System for Traffic Prediction and Guidance Generation},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INFORMS98.pdf}},
  year = {1998},
  note = {Presented at INFORMS National meeting, Montr\éal, Canada}}}

Bierlaire M. A distributed system of models for real-time operation of a traffic management center February 16, 1998. CERFACS Seminars, Toulouse, France.


@Misc{CERFACS98,
  author = {Michel Bierlaire},
  title = {A distributed system of models for real-time operation of a traffic management center},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CERFACS98.pdf}},
  year = {1998},
  note = {Presented at CERFACS Seminars, Toulouse, France}}}

Bierlaire M. DynaMIT: un syst�me en temps r�el pour la pr�diction du trafic et la g�n�ration d'information aux conducteurs February 11, 1998. Seminar, EPFL, ITEP, Lausanne, Switzerland.


@Misc{ITEP98,
  author = {Michel Bierlaire},
  title = {DynaMIT: un syst\`eme en temps r\'eel pour la pr\'ediction du trafic et la g\'en\'eration d'information aux conducteurs},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ITEP98.pdf}},
  year = {1998},
  note = {Presented at Seminar, EPFL, ITEP, Lausanne, Switzerland}}}

Bierlaire M. Demand simulation for traffic estimation and prediction in a real-time dynamic traffic assignment system January 01, 1998. Transportation Seminar Series, Institute of Transportation Studies, University of California, Berkeley, USA.


@Misc{BERK98,
  author = {Michel Bierlaire},
  title = {Demand simulation for traffic estimation and prediction in a real-time dynamic traffic assignment system},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BERK98.pdf}},
  year = {1998},
  note = {Presented at Transportation Seminar Series, Institute of Transportation Studies, University of California, Berkeley, USA}}}

Bierlaire M. DynaMIT: a simulation-based system for traffic prediction January 01, 1998. DACCORD Short-term forecasting workshop, Delft, The Netherlands.


@Misc{DACCORD98,
  author = {Michel Bierlaire},
  title = {DynaMIT: a simulation-based system for traffic prediction},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/DACCORD98.pdf}},
  year = {1998},
  note = {Presented at DACCORD Short-term forecasting workshop, Delft, The Netherlands}}}

Bierlaire M. Un laboratoire de simulation pour l'�valuation de syst�mes dynamique de gestion du trafic January 01, 1998. IML, Ecole Nationale des Ponts et Chaussées, Institut International de Management pour la Logistique, Paris, France.


@Misc{IML98,
  author = {Michel Bierlaire},
  title = {Un laboratoire de simulation pour l'\'evaluation de syst\`emes dynamique de gestion du trafic},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/IML98.pdf}},
  year = {1998},
  note = {Presented at IML, Ecole Nationale des Ponts et Chauss\ées, Institut International de Management pour la Logistique, Paris, France}}}

Bierlaire M. DynaMIT: un syst�me en temps r�el pour la pr�diction du trafic et la g�n�ration d'information aux conducteurs January 01, 1998. INRETS, Arcueil-Cachan, France.


@Misc{INRETS98,
  author = {Michel Bierlaire},
  title = {DynaMIT: un syst\`eme en temps r\'eel pour la pr\'ediction du trafic et la g\'en\'eration d'information aux conducteurs},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INRETS98.pdf}},
  year = {1998},
  note = {Presented at INRETS, Arcueil-Cachan, France}}}

Bierlaire M. Demonstration of the DynaMIT system January 01, 1998. ITS America Annual Meeting, Detroit (MI), USA.


@Misc{ITS98,
  author = {Michel Bierlaire},
  title = {Demonstration of the DynaMIT system},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/ITS98.pdf}},
  year = {1998},
  note = {Presented at ITS America Annual Meeting, Detroit (MI), USA}}}

Bierlaire M. Introduction to HieLoW, an interactive package to estimate hierarchical logit models January 01, 1998. MIT Summer School on Individual Choice Behavior: Theory and Application on Discrete Choice Analysis to Consumer Demand and Market Share, MIT, Cambridge (MA), USA.


@Misc{MIT98,
  author = {Michel Bierlaire},
  title = {Introduction to HieLoW, an interactive package to estimate hierarchical logit models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT98.pdf}},
  year = {1998},
  note = {Presented at MIT Summer School on Individual Choice Behavior: Theory and Application on Discrete Choice Analysis to Consumer Demand and Market Share, MIT, Cambridge (MA), USA}}}

Bierlaire M. Real-Time Systems for ITS Applications, and consistency in predictive informations systems January 01, 1998. MIT Summer School, Massachusetts Institute of Technology, Cambridge (Ma), USA.


@Misc{MIT98ITS,
  author = {Michel Bierlaire},
  title = {Real-Time Systems for ITS Applications, and consistency in predictive informations systems},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT98ITS.pdf}},
  year = {1998},
  note = {Presented at MIT Summer School, Massachusetts Institute of Technology, Cambridge (Ma), USA}}}

1997

Bierlaire M. Design and Development of DynaMIT May 04, 1997. INFORMS, San Diego (Ca), USA.


@Misc{INFORMS97,
  author = {Michel Bierlaire},
  title = {Design and Development of DynaMIT},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/INFORMS97.pdf}},
  year = {1997},
  note = {Presented at INFORMS, San Diego (Ca), USA}}}

Bierlaire M. Discrete choice models March 10, 1997. NATO Advanced Studies Institute on Operations research and decision aid methodologies in traffic and transportation management, Hotel UNI, Balatonfured, Hungary.


@Misc{HUN97-NATO,
  author = {Michel Bierlaire},
  title = {Discrete choice models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/HUN97-NATO.pdf}},
  year = {1997},
  note = {Presented at NATO Advanced Studies Institute on Operations research and decision aid methodologies in traffic and transportation management, Hotel UNI, Balatonfured, Hungary}}}

Bierlaire M. Introduction to HieLoW, an interactive package to estimate hierarchical logit models January 01, 1997. MIT Summer School on Individual Choice Behavior: Theory and Application of Discrete Choice Analysis to Consumer Demand and Market Share, MIT, Cambridge (Ma), USA.


@Misc{MIT97,
  author = {Michel Bierlaire},
  title = {Introduction to HieLoW, an interactive package to estimate hierarchical logit models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT97.pdf}},
  year = {1997},
  note = {Presented at MIT Summer School on Individual Choice Behavior: Theory and Application of Discrete Choice Analysis to Consumer Demand and Market Share, MIT, Cambridge (Ma), USA}}}

Bierlaire M. Dynamic Traffic assignment System Design requirements and Data Needs January 01, 1997. Transportation Research Board, 76th Annual Meeting, Washington (D.C), USA.


@Misc{TRB97,
  author = {Michel Bierlaire},
  title = {Dynamic Traffic assignment System Design requirements and Data Needs},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/TRB97.pdf}},
  year = {1997},
  note = {Presented at Transportation Research Board, 76th Annual Meeting, Washington (D.C), USA}}}

1996

Bierlaire M. DynaMIT: Dynamic Network Assignment for the Management of Information to Travelers January 01, 1996. Research seminar of the Center for Transportation Studies, MIT, Cambridge (Ma), USA.


@Misc{CTS96,
  author = {Michel Bierlaire},
  title = {DynaMIT: Dynamic Network Assignment for the Management of Information to Travelers},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CTS96.pdf}},
  year = {1996},
  note = {Presented at Research seminar of the Center for Transportation Studies, MIT, Cambridge (Ma), USA}}}

Bierlaire M. DynaMIT: Dynamic Network Assignment for the Management of Information to travelers January 01, 1996. 4th Meeting of the EURO Working Group on Transportation, Newcastle, UK.


@Misc{EURO96,
  author = {Michel Bierlaire},
  title = {DynaMIT: Dynamic Network Assignment for the Management of Information to travelers},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/EURO96.pdf}},
  year = {1996},
  note = {Presented at 4th Meeting of the EURO Working Group on Transportation, Newcastle, UK}}}

Bierlaire M. Introduction to HieLoW, an interactive package to estimate hierarchical logit models January 01, 1996. MIT Summer School on Individual Choice Behavior: Theory and Application of Discrete Choice Analysis, MIT, Cambridge (Ma), USA.


@Misc{MIT96-HLoW,
  author = {Michel Bierlaire},
  title = {Introduction to HieLoW, an interactive package to estimate hierarchical logit models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT96-HLoW.pdf}},
  year = {1996},
  note = {Presented at MIT Summer School on Individual Choice Behavior: Theory and Application of Discrete Choice Analysis, MIT, Cambridge (Ma), USA}}}

Bierlaire M. Real-Time Dynamic Traffic Assignment System January 01, 1996. MIT Symposium on Advanced Projects in Intelligent Transportation Systems, MIT, Cambridge (Ma), USA.


@Misc{MIT96-SYMP,
  author = {Michel Bierlaire},
  title = {Real-Time Dynamic Traffic Assignment System},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT96-SYMP.pdf}},
  year = {1996},
  note = {Presented at MIT Symposium on Advanced Projects in Intelligent Transportation Systems, MIT, Cambridge (Ma), USA}}}

1995

Bierlaire M. HieLoW, a package that estimates hierarchical logit models January 01, 1995. World Conference on Transportation Research, Sydney, Australia.


@Misc{AU95HLoW,
  author = {Michel Bierlaire},
  title = {HieLoW, a package that estimates hierarchical logit models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/AU95HLoW.pdf}},
  year = {1995},
  note = {Presented at World Conference on Transportation Research, Sydney, Australia}}}

Bierlaire M. MEUSE: an origin-destination matrix estimator that exploits structure January 01, 1995. World Conference on Transportation Research, Sydney, Australia.


@Misc{AU95MEUSE,
  author = {Michel Bierlaire},
  title = {MEUSE: an origin-destination matrix estimator that exploits structure},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/AU95MEUSE.pdf}},
  year = {1995},
  note = {Presented at World Conference on Transportation Research, Sydney, Australia}}}

Bierlaire M. HieLoW: Hierarchical Logit for Windows January 01, 1995. 3th Meeting of the EURO Working Group on Transportation, Barcelona, Spain.


@Misc{EURO95HLoW,
  author = {Michel Bierlaire},
  title = {HieLoW: Hierarchical Logit for Windows},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/EURO95HLoW.pdf}},
  year = {1995},
  note = {Presented at 3th Meeting of the EURO Working Group on Transportation, Barcelona, Spain}}}

Bierlaire M. HieLoW, un logiciel interactif pour les mod�les de choix discret January 01, 1995. French-speaking Conference on Operational Research, Mons, Belgium.


@Misc{FRANCORO95,
  author = {Michel Bierlaire},
  title = {HieLoW, un logiciel interactif pour les mod\`eles de choix discret},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/FRANCORO95.pdf}},
  year = {1995},
  note = {Presented at French-speaking Conference on Operational Research, Mons, Belgium}}}

1994

Bierlaire M. HieLoW: un logiciel pour les �tudes de choix discrets January 01, 1994. La Technique d'enquêtes de préférences déclarées et ses applications dans le domaine des services, Brussels, Belgium.


@Misc{BE94-HLoW,
  author = {Michel Bierlaire},
  title = {HieLoW: un logiciel pour les \'etudes de choix discrets},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/BE94-HLoW.pdf}},
  year = {1994},
  note = {Presented at La Technique d'enqu\êtes de pr\éf\érences d\éclar\ées et ses applications dans le domaine des services, Brussels, Belgium}}}

Bierlaire M. MEUSE: an origin-destination matrix estimator that exploits structure January 01, 1994. Conjooint conference CORS'94 - Optimization Days, Montréal, Canada.


@Misc{CORS94,
  author = {Michel Bierlaire},
  title = {MEUSE: an origin-destination matrix estimator that exploits structure},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/CORS94.pdf}},
  year = {1994},
  note = {Presented at Conjooint conference CORS'94 - Optimization Days, Montr\éal, Canada}}}

Bierlaire M. Fuzzy random utility models January 01, 1994. Seminar, MIT, Center for Transportation Studies, Cambridge (Ma), USA.


@Misc{MIT94-FUZZ,
  author = {Michel Bierlaire},
  title = {Fuzzy random utility models},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT94-FUZZ.pdf}},
  year = {1994},
  note = {Presented at Seminar, MIT, Center for Transportation Studies, Cambridge (Ma), USA}}}

Bierlaire M. MEUSE: an origin-destination matrix estimator that exploits structure January 01, 1994. Seminar, MIT, Center for Transportation Studies, Cambridge, (Ma), USA.


@Misc{MIT94-MEUS,
  author = {Michel Bierlaire},
  title = {MEUSE: an origin-destination matrix estimator that exploits structure},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/MIT94-MEUS.pdf}},
  year = {1994},
  note = {Presented at Seminar, MIT, Center for Transportation Studies, Cambridge, (Ma), USA}}}

1993

Bierlaire M. MEUSE: un mod�le d'estimation de matrices origines-destinations qui exploite la structure January 01, 1993. Congrès International Francophone: Quels transports pour nos villes de demain?, Versailles, France.


@Misc{FR93-MEUSE,
  author = {Michel Bierlaire},
  title = {MEUSE: un mod\`ele d'estimation de matrices origines-destinations qui exploite la structure},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/FR93-MEUSE.pdf}},
  year = {1993},
  note = {Presented at Congr\ès International Francophone: Quels transports pour nos villes de demain?, Versailles, France}}}

1992

Bierlaire M. Use of parking surveys to estimate demand matrices January 01, 1992. EIASM Conference- Logistics: transportation and distribution, Brussels, Belgium.


@Misc{EIASM92,
  author = {Michel Bierlaire},
  title = {Use of parking surveys to estimate demand matrices},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/EIASM92.pdf}},
  year = {1992},
  note = {Presented at EIASM Conference- Logistics: transportation and distribution, Brussels, Belgium}}}

Bierlaire M. Le plan de circulation � Namur January 01, 1992. European meeting "Pour des transports efficaces en ville", Institut Wallon, Namur, Belgium.


@Misc{NAMUR02,
  author = {Michel Bierlaire},
  title = {Le plan de circulation \`a Namur},
  howpublished = {\url{https://transp-or.epfl.ch/documents/talks/NAMUR02.pdf}},
  year = {1992},
  note = {Presented at European meeting \"Pour des transports efficaces en ville\", Institut Wallon, Namur, Belgium}}}

Awards [18]

2020

Michel Bierlaire. Impactful Research Award, Zephyr Foundation.
The Impactful Research Award is given to an individual or team of researchers for a research project that has had the most [relatively recent] impact on bettering the travel analysis field for the public good..

2016

Carolina Osorio Pizano, Michel Bierlaire. Outstanding Paper in Urban Transportation Planning and Modeling, Transportation Science and Logistics Society, INFORMS.
Riccardo Scarinci, Iliya Markov, Michel Bierlaire. Green Transportation Award, for the extended abstract and presentation "Network design of a transport system based on accelerating moving walkways". Triennial Symposium on Transportation Analysis TRISTAN IX, 12-17/06/2016 Oranjestad, Aruba..

2009

Emma Frejinger, Michel Bierlaire. Ranked first in the TOP 25 hottest articles of Transportation Research Part B for July-September 2009, Transportation Research Part B: Methodological.
Frejinger, E., Bierlaire, M., and Ben-Akiva, M. (2009). Sampling of Alternatives for Route Choice Modeling, Transportation Research Part B: Methodological 43(10):984-994..
Emma Frejinger, Michel Bierlaire. Ranked 21 in the TOP 25 hottest articles of Transportation Research Part B for April-June 2009, Transportation Research Part B: Methodological.
Frejinger, E., Bierlaire, M., and Ben-Akiva, M. (to appear). Sampling of Alternatives for Route Choice Modeling, Transportation Research Part B: Methodological (accepted for publication on March 03, 2009) .
Thomas Robin, Gianluca Antonini, Michel Bierlaire, Javier Cruz. Ranked 1st in the TOP 25 hottest articles of Transportation Research Part B for January-March 2009, Transportation Research Part B.
Robin, T., Antonini, G., Bierlaire, M., and Cruz, J. (2009). Specification, estimation and validation of a pedestrian walking behavior model, Transportation Research Part B: Methodological 43(1):36-56. doi:10.1016/j.trb.2008.06.010.
Michel Bierlaire. Ranked 9th in the TOP 25 hottest articles of Transportation Research Part B for January-March 2009, Transportation Research Part B.
Fosgerau, M., and Bierlaire, M. (2009). Discrete choice models with multiplicative error terms, Transportation Research Part B: Methodological 43(5):494-505. doi:10.1016/j.trb.2008.10.004.
Gianluca Antonini, Michel Bierlaire, Mats Weber. Ranked 12th in the TOP 25 hottest articles of Transportation Research Part B for January-March 2009, Transportation Research Part B.
Antonini, G., Bierlaire, M., and Weber, M. (2006). Discrete choice models of pedestrian walking behavior, Transportation Research Part B: Methodological 40(8):667-687. doi:10.1016/j.trb.2005.09.006.

2008

Thomas Robin, Gianluca Antonini, Michel Bierlaire, Javier Cruz. Ranked 1st in the TOP 25 hottest articles of Transportation Research Part B for October-December 2008, Transportation Research Part B.
Robin, T., Antonini, G., Bierlaire, M., and Cruz, J. (2009). Specification, estimation and validation of a pedestrian walking behavior model, Transportation Research Part B: Methodological 43(1):36-56. doi:10.1016/j.trb.2008.06.010.
Michel Bierlaire, Emma Frejinger. Ranked 2 in the TOP 25 hottest articles of Transportation Research Part C for January-March 2008, Transportation Research Part C: Emerging Technologies.
Bierlaire, M., and Frejinger, E. (2008). Route choice modeling with network-free data, Transportation Research Part C: Emerging Technologies 16(2):187-198..
Michel Bierlaire. Ranked 4 in the TOP 25 hottest articles of Transportation Research Part B for January-March 2008, Transportation Research Part B: Methodological. with D. Bolduc and D. McFadden.
Bierlaire, M., Bolduc, D., and McFadden, D. (2008). The estimation of Generalized Extreme Value models from choice-based samples, Transportation Research Part B: Methodological 42(4):381-394..

2007

Michel Bierlaire. Ranked 13 in the TOP 25 hottest articles of Transportation Research Part B for April-June 2007, Transportation Research Part B. with M. Fosgerau.
Fosgerau, M., and Bierlaire, M. (2007). A practical test for the choice of mixing distribution in discrete choice models, Transportation Research Part B: Methodological 41(7):784-794..
Michel Bierlaire. Ranked 5 in the TOP 25 hottest articles of Transportation Research Part B for April-June 2007, Transportation Research Part B: Methodological. with E. Abbe and T. Toledo.
Abbe, E., Bierlaire, M., and Toledo, T. (2007). Normalization and correlation of cross-nested logit models, Transportation Research Part B: Methodological 41(7):795-808..
Emma Frejinger, Michel Bierlaire. Ranked 13 in the TOP 25 hottest articles of Transportation Research Part B for July-September 2007, Transportation Research Part B: Methodological.
Frejinger, E., and Bierlaire, M. (2007). Capturing correlation with subnetworks in route choice models, Transportation Research Part B: Methodological 41(3):363-378..

2006

Michel Bierlaire, Frank Crittin. Best Paper Award,, Transportation Science & Logistics Society, INFORMS.
Bierlaire, M., and Crittin, F. (2004). An efficient algorithm for real-time estimation and prediction of dynamic OD table, Operations Research 52(1):116-127..
Gianluca Antonini, Michel Bierlaire. Ranked first in the TOP 25 hottest articles of Transportation Research Part B for April-June 2006, Transportation Research Part B. with M. Weber.
Antonini, G., Bierlaire, M., and Weber, M. (2006). Discrete choice models of pedestrian walking behavior, Transportation Research Part B: Methodological 40(8):667-687..
Michel Bierlaire. Ranked 15th in the TOP 25 hottest articles of Transportation Research Part A for April-June 2005, Transportation Research Part A. with S. Hess and J. Polak.
Hess, S., Bierlaire, M., and Polak, J. (2005). Estimation of value of travel-time savings using Mixed Logit models, Transportation Research Part A: Policy and Practice 39(3):221-236..
Michel Bierlaire. Ranked third in the TOP 25 hottest articles of Transportation Research Part B for January-March 2006, Transportation Research Part B. with A. Daly.
Daly, A., and Bierlaire, M. (2006). A General and Operational Representation of Generalised Extreme Value Models, Transportation Research Part B: Methodological 40(4):285-305..

Reviewing [22]

Transportation Research Part B: Methodological (25)
Transportation Research Part C: Emerging Technologies (16)
Transportation Science (8)
European Journal of Operational Research (6)
Journal of Choice Modelling (4)
Transportation (4)
European Transport (3)
IET Intelligent Transport Systems (3)
Transportation Research Part A: Policy and Practice (3)
Journal of Intelligent Transportation Systems (2)
Networks and Spatial Economics (2)
Optimization Methods and Software (2)
Recherche Transports S�curit� (2)
Transportation Research Record (2)
Transportmetrica (2)
ASCE Journal of Infrastructure Systems (1)
ASCE Journal of Transportation Engineering (1)
Environment and Planning A (1)
INFOR: Information Systems and Operational Research (1)
Les Cahiers Scientifiques du Transport (1)
Operations Research (1)
SIAM Journal on Optimization (1)

Research projects [86]

2022

The Elevator Dispatching Problem with Destination Control

The Elevator Dispatching Problem with Destination Control We propose developing a Branch-and-Price (BP) exact method that can provide optimal solutions to instances. The size of the instances that BP can solve has to be determined with computational experiments once the method is implemented and cannot be known beforehand. BP is known to provide good lower bounds that can also be used to evaluate heuristic solutions. The aim of this study is to provide optimal solutions to the deterministic-static EDPDC where we have perfect information and compare with Schindler�s heuristic solution.
- Sep 22, 2022 - Apr 01, 2023
- Sponsor: Schindler
- Principal investigator: Michel Bierlaire
- Project manager: Fabian Torres
E-Bike City

This project has the following content: Transport policy is currently not finding a way out of its dilemma; the imminent need to decarbonize a sector fast which has barely moved in the recent past and the social requirement to maintain and increase accessibility across all modes, but not to encourage sprawl while still allowing further decreases in the generalised cost of travel by new technologies and business models. We propose to use a radical departure from previous proposed ideas to enable the policy and transport industry to begin thinking from a different starting point. The design idea is to reallocate 50% of the existing urban road space to e-bikes, bicycles, and other micromobility modes and to assess what this change could achieve in terms of accessibility, generalised costs of travel, changes in daily life and reductions in emissions and CO2. The project will integrate careful involvement of the various stakeholders from citizens, cities, firms to interest groups, but will also provide the materials needed to communicate the ideas and their equity impacts visually and verbally at the required levels of complexity.
- Sep 01, 2022 - Dec 31, 2025
- Sponsor: Swiss Federal Office of Energy
- Principal investigator: Michel Bierlaire
- Project manager: Janody Pougala
Migration and Discrete Choice Models (MIGDCM)

International migration is at the forefront of policy debates in most countries around the world. In industrialized nations, the proportion of foreigners in total population increased from 4.5 to 12 percent between 1960 and 2019, stirring up fears about economic costs for natives, loss of national identity, and integration issues. In poor countries, international migration raises concerns about the brain drain of highly-skilled workers, as college and university graduates have a much greater propensity to emigrate internationally than the less educated. Hence, the questions of how many people migrate (i.e., migration intensity}, which people migrate first or are more likely to migrate (i.e., migrants' selection), and where migrants choose to settle (i.e., migrants' sorting) have been analyzed from all possible angles in recent literature. Specifically, understanding how people revise their decisions about whether to emigrate, and where to, when facing changes in the global environment is of crucial importance for decision-makers.
- Mar 01, 2022 - Mar 31, 2025
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project managers: Silvia Varotto, Evangelos Paschalidis

2020

Optimization of individual mobility plans to simulate future travel in Switzerland

This project, joint with Swiss Federal Railways (SBB) will develop a new activity-based modelling approach based on optimization of individual daily mobility plans. This approach will be implemented within SBB's existing nationwide model for Switzerland for investment and service planning decisions for future transportation.
- Sep 01, 2020 - Mar 01, 2022
- Sponsor: Innosuisse (Swiss Innovation Agency)
- Principal investigator: Michel Bierlaire
- Project manager: Tim Hillel
- Collaborators: Janody Pougala, Rico Krueger

2019

OrgVisionPro: Automated organizational design and optimization

This project, joint with CLEAP S.A., is will develop advanced analytics algorithms to propose organization design (OD) scenarios based on the existing situation, constraints, and future needs of a business. These scenarios will support organizations in shaping their future by optimizing their structure and operating models.
- Oct 01, 2019 - Jun 30, 2021
- Sponsor: Innosuisse (Swiss Innovation Agency)
- Principal investigator: Michel Bierlaire
- Project managers: Rico Krueger, Tim Hillel
- Collaborators: Melvin Wong, Nour Dougui
Activity based travel demand forecasting

This research project aims to update and improve the microscopic activity-based demand model developed and maintained by SBB. Specifically the research intends to address the following questions: 1. Ownership of mobility instruments: Which metrics and specifications can be added to the current model, in order to improve its ability to forecast mid-and long-term ownership of mobility instruments? More specifically, how can the notion of accessibility be integrated to the current model to capture more complex mode interactions? 2. Mode choice model: Can a tour-based approach be used to model mode choice? In addition, how can the processes to estimate destination and mode choice (currently nested) be combined to generate results that are consistent with observed mobility behaviors at different time horizons (short, mid, and long-term)? 3. Tour and activity generation: How can the generation of tours and activity patterns be combined to allow modelling of joint decisions?
- Mar 01, 2019 - Mar 01, 2020
- Sponsor: Swiss Federal Railways (SBB)
- Principal investigator: Michel Bierlaire
- Project manager: Tim Hillel
- Collaborator: Janody Pougala

2018

PAM Personal Autonomous Moving platforms

In this project, Schindler and TRANSP-OR imagine a revolution of urban mobility focused on pedestrians. The Personal Autonomous Moving (PAM) platforms are similar to hoverborads or segways, and move from a point A (origin) to a point B (destination) on their own and carry the user with minimum interaction. They are a �light� mode of transport that does not require large space or infrastructural investment for the installation. This innovative mode of transport is ideal for short distance trip in large pedestrian facilities such as university campuses, larger business districts and airports as well as city centers. A great advantage is the possibility to directly access elevators with PAM platforms. This could lead to a real three-dimensional mobility taking advantage of elevators already installed in buildings. A possible deployment of this system generates several scientific and technological challenges. TRANP-OR focuses on the research questions that are related to the algorithms and mathematical models used by decision support tools needed for the planning and operation of the system.
- Nov 15, 2018 - May 14, 2019
- Sponsor: Schindler
- Principal investigator: Michel Bierlaire
- Project manager: Yuki Oyama
Design of a car-free city center: a fringe parking system with accelerated moving walkways

This project is conducted on a fellowship "The EuroTech Postdoc Programme". A car-free city center is a valuable solution for decreasing traffic congestion and CO2 emissions, and improving active mobility and quality of life. To achieve these goals, one of the biggest challenges is the relocation of parking places scattered in the inner district, which cause cruising for available parking as well as car inflows. A possible solution is a �fringe parking� system, which groups parking into a limited number of spots on the border of the district. However, this may decrease the level of accessibility moving the parking away from the final destinations. The key idea of this research is to use �accelerated moving walkway� (AMW), a novel transport system, in combination with a fringe parking system to design a car-free city center with high accessibility. The goal of the research is to propose and identify the optimal configuration of a fringe parking system with AMWs, as a solution to city centers. The main methodologies are network design optimization and traffic assignment.
- Oct 01, 2018 - Sep 30, 2020
- Sponsor: European Commission
- Principal investigator: Michel Bierlaire
- Project manager: Yuki Oyama
Accessibility based optimization of educational infrastructure networks

The aim of this project is to propose a methodology to assess and optimize educational infrastructure networks based on accessibility. In 2014, the World Bank launched the Global Program for Safer Schools (GPSS) with a focus on integrating risk reduction considerations into education infrastructure policies and investments. The GPSS aims to boost and facilitate informed, large-scale investments for the safety and resilience of new and existing school infrastructure at risk from natural hazards, contributing to high-quality learning environments. Understanding accessibility of school infrastructure networks is an important element to optimize risk reduction interventions as well as to improve the quality and efficiency of the educational service. To support this goal, the Transportation and Mobility Laboratory proposes a methodology to assess and optimize educational infrastructure networks based on accessibility; and proposes solutions to improve the performance of educational infrastructure networks. In other words, researchers will evaluate the risks based on the school network, including parameters like transportation network, home location of the students, mobility patterns... They will then provide a methodology in order to help direct investments to reduce the risks in case of disaster.
- Jan 01, 2018 - Dec 31, 2018
- Sponsor: World Bank
- Principal investigator: Michel Bierlaire
- Project manager: Riccardo Scarinci

2017

Incorporating competitors' behavior in demand based optimization models

The starting point of this research project is the general framework developed in the SNF research project 200021_165636 entitled �Incorporating advanced behavioral models in mixed integer linear optimization�. The project aims at formulating explicitly the complex interaction between the supply and demand actors. We hypothesize that the decisions of supply actors (such as capacity, assortment, and price) are highly influenced by the decisions of other actors, through competition within the market. In this project, we will therefore explicitly consider multiple operators that compete for the same pool of customers. Each operator will take the supply-side decisions that optimize its performance function (e.g., maximization of revenue). Non-cooperative game theory is commonly used to model such oligopolistic competition. We plan to investigate how to integrate these games in the already developed framework. In this context, the objective will be to analyze the concept of equilibrium, that is, stationary states of the system where no actor has an incentive to change his/her decisions.
- Nov 01, 2017 - Oct 31, 2020
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Virginie Lurkin
- Collaborator: Stefano Bortolomiol
Leveraging Public and Open Data for Transportation Mode detection

Modern smartphones are more than just calling devices. They harbor a wealth of information that provides the transportation field with a new potential. In this project, researchers will create a transportation mode detection model based on telecommunication data from smartphone users combined with public transport-related data sources. The researchers are provided with anonymized telecommunication traces. As those data remain scarce, additional data will be identified from external sources including network infrastructure, route maps, time schedules in static or real-time form, microcensus, weather, etc. A probabilistic model will be developed to infer the transportation modes from those various data sources. The project lasts one year, and will be carried out by the Transport and Mobility Laboratory, directed by Prof. Michel Bierlaire. It is sponsored by Swisscom.
- Sep 04, 2017 - Sep 04, 2018
- Sponsor: Swisscom
- Principal investigator: Michel Bierlaire
- Project managers: Marija Nikolic, Riccardo Scarinci
Network Design for SBB Cargo

This project aims at developing an algorithm for the overall design of SBB cargo�s network of bundling points. SBB Cargo operates a network of 2 marshaling yards, 65 shunting yards and about 350 of small bundling points. The operation as such is costly and the network might contain redundant bundling points. The overall interest of SBB Cargo is to minimize the operating cost of their network and to compare its performance to a better network, completely designed from scratch. The resulting framework is then planned to be used to improve the current network of SBB cargo and its future development. The main research challenge of this project is to incorporate the SBB Cargo needs into one model while taking into account the specifics of the railway network and its operation. The researchers from the Transport and Mobility Laboratory (TRANSP-OR) will develop a heuristic algorithm that gives as an output a complete network design based on the inputs (cargo demand, capacity, types and costs of different bundling points). The algorithm can be further adjusted by entering the already existing bundling points. The effectiveness of the proposed algorithm will be tested thorough comparison with existing solutions. TRANSP-OR, led by prof. Michel Bierlaire, has a track record of successful projects of solving highly complex problems arising in industrial sector. This one-year project is sponsored by SBB-CFF-FFS.
- Sep 01, 2017 - Aug 31, 2018
- Sponsor: Swiss Federal Railways (SBB)
- Principal investigator: Michel Bierlaire
- Project managers: Nikola Obrenovic, Virginie Lurkin
Cost reduction using passenger centric timetabling

To design their timetables, train-operating companies mostly focus on operational aspects and cost. In Switzerland, a paradigm of transportation planning is to create regular-interval timetables (a.k.a. cyclic timetables) which aim for maximal transfer connections, simplicity and hence user friendlyness. SBB uses travel simulation models to predict the impact of timetable changes on travel demand and revenue. Mathematical timetable optimization methods are not yet used by SBB. But a recent EPFL thesis (2016) shows that the timetable itself has a significant impact on the performance of the operator in terms of the number of transported passengers: a timetable design that considers the behavior of passengers leads to higher revenue(s), market share(s), higher value of passenger-km etc. In this project, the aim is to use the optimization methods developed by the TRANSP-OR Lab consisting in combining cyclic and non-cyclic timetables and apply it to the Swiss Federal Railways� timetable design. The goal is to evaluate the performance of the current Swiss interval timetable and to compare it to the optimal one. Suitability of hybrid timetables for the Swiss railway network will be investigated. This one-year project is carried out by the Transport and Mobility Laboratory, led by prof. Michel Bierlaire. TRANSP-OR has vast competence in modeling, optimization and simulation of transportation systems. The project is sponsored by SBB CFF FFS.
- Sep 01, 2017 - Aug 31, 2018
- Sponsor: Swiss Federal Railways (SBB)
- Principal investigator: Michel Bierlaire
- Project manager: Virginie Lurkin

2016

Capacity building program in urban mobility and transportation

The purpose of this project is to develop graduate curriculum in urban mobility and transportation. The relevant courses of this curriculum will be available in MOOC format. This program is a collaborative project between Kwame Nkrumah University of Science and Technology (KNUST) and Urban Transport Systems Laboratory (LUTS) and Transport and Mobility Laboratory (TRANSP-OR) at EPFL.
- Sep 01, 2016 - Sep 01, 2019
- Sponsor: State Secretariat for Economic Affairs
- Principal investigator: Michel Bierlaire
- Project managers: Yousef Maknoon, Riccardo Scarinci, Yuki Oyama
Incorporating advanced behavioral models in mixed integer linear optimization

Discrete choice models are used for detailed representation of the "demand". However, their complexity makes mathematical formulations highly non convex in the explanatory variables. On the other hand, Mixed Integer Linear Programs (MILP) are optimization problems with discrete variables that are used in many applications to design and configure the "supply". In this project, we propose a new modeling framework that allows to include any random utility model in a mixed integer optimization formulation. The heterogeneity of demand is captured within the general choice model framework and the offers are tailored in a way that is beneficial for users as wells as providers. The main objective of the project is to obtain a framework that is both general, so that it can be applied in many applications, and operational, so that it can be used in practice.
- Apr 01, 2016 - Mar 31, 2019
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Shadi Sharif Azadeh
- Collaborator: Meritxell Pacheco
TRANS-FORM: Smart transfers through unravelling urban form and travel flow dynamics

TRANS-FORM, a cooperation between universities, industrial partners, public authorities and private operators, will develop, implement and test a data driven decision making tool that will support smart planning, and proactive and adaptive operations. The objective of the project is to better understand transferring dynamics in multi-modal public transport systems and develop insights, strategies and methods to support decision makers in transforming public transport usage to a seamless travel experience by using smart data. The tool will integrate new concepts and methods of behavioral modelling, passenger flow forecasting and network state predictions into real-time operations. TRANS-FORM is funded under the European Commission Horizon 2020 ERA-NET program.
- Mar 03, 2016 - Mar 03, 2019
- Sponsor: The Federal Department of the Environment, Transport, Energy and Communications (DETEC)
- Principal investigator: Michel Bierlaire
- Project managers: Shadi Sharif Azadeh, Riccardo Scarinci, Yuki Oyama
- Collaborators: Nicholas Molyneaux, Nikola Obrenovic

2015

myTOSA 2.0 - Enhanced simulation and optimization tool for cost-optimal deployment of TOSA electric buses

The TOSA catenary-free electric bus system is the ABB response to the challenge of decreasing the environmental impact of public transportation. The project builds on the previous CTI project - myTOSA - and it aims to introduce new business analytics features and to improve the fidelity of the simulation and (robust) optimization modules used for a cost-optimal deployment of the TOSA charging infrastructure and component sizing.
- Sep 30, 2015 - Nov 16, 2017
- Sponsor: Commission pour la technologie et de l'innovation, Office Fédéral de la formation professionnelle et de la technologie.
- Principal investigator: Michel Bierlaire
- Project managers: Riccardo Scarinci, Virginie Lurkin
- Collaborators: Shadi Sharif Azadeh, Yousef Maknoon
Demand-based facility location problem

The project aims at integrating demand models in a state-of-the-art mathematical model for Location-Routing Problem (LRP) in the context of energy. We are investigating different assumptions about the representation of the demand in the context of facility location and routing problem.
- Aug 01, 2015 - Dec 31, 2015
- Sponsor: EDF
- Principal investigator: Michel Bierlaire
- Project manager: Shadi Sharif Azadeh

2014

Drive For You: a driving assistant tool to detecting pedestrians

This project aims to develop an onboard pedestrian tracking system to assist the driver detect them and, ultimately, to increase security. The project, with a duration of four years, will focus on pedestrians detection, tracking and trajectory prediction, and will be will be closely related to vehicle command strategies. The project is part of the automated driving research Chair "Drive for you" led by MINES ParisTech in partnership with French industrialists and three prestigious academic institutions the Ecole Polytechnique F�d�rale de Lausanne EPFL (Switzerland), the University of Shanghai Jiao Tong (China) and the University of Berkeley (USA). Supported by the Foundation MINES ParisTech, with Valeo industrial, PSA Peugeot Citro�n and Safran contributing 3.7 million euros in funds, the Chair will work for five years on the subject of automated driving. The three main objectives are expand knowledge of self-driving vehicles, develop intelligent onboard systems, get self-driving vehicles on the road in Asia, Europe and the United States.
- Dec 01, 2014 - Nov 30, 2018
- Sponsor: MINES ParisTech
- Principal investigator: Michel Bierlaire
- Project manager: Riccardo Scarinci
Electric vehicle adoption dynamics: exploring market potentials

This project proposes innovative methods to identify the determinants of acceptance of alternative vehicles and their impact on everyday mobility. The greatest challenge faced by the promoters of the transition towards this low carbon engine technology lies in understanding how consumers accept the financial and lifestyle investments associated with the leap from traditional to electric powertrains. This project proposes innovative methods to identify the determinants of acceptance of alternative vehicles and their impact on everyday mobility. A deeper understanding of adoption dynamics is critical to predict who will opt for EVs when and under which conditions. This project will focus on innovative data-collection and modelling methodologies to uncover the acceptance of EVs at different stages of market-penetration (considering inexperienced/experienced users, early pioneers/late-adopters). A thorough analysis of the consumer decision-making process will lead to uncovering the barriers and success factors related to EV uptake and to forecast buying and usage behaviours related to new vehicle classes.
- Apr 01, 2014 - Mar 31, 2017
- Sponsor: Nissan
- Principal investigator: Michel Bierlaire
- Project manager: Matthieu de Lapparent
- Collaborator: Anna Fernandez Antolin
Air navigation platform: flights planning by using real-time weather data

Flying safer, cheaper, faster are keywords of this new service. This project aims at integrating an automatic route planning system, tightly coupled with the real-time meteorological data, taking into account energy consumption of the mobile device hosting the application. The route will be computed in real time on mobile devices using the information of weather forecast and respecting to the constraints such as airspace/airport restriction and terrain avoidance, etc. The energy efficient implementation of the routing application is crucial, to provide routing information to the pilot during the entire trip. This becomes challenging, as automatic route planning often requires complex algorithms. In this project, we will target at a three-dimensional flight route-planning problem and design an efficient but robust algorithm to solve the problem. The project will last 18 months. It is conducted by TRANSP-OR in collaboration with the Xample S�rl, ICARE Institut de recherche and Haute Ecole Sp�cialis�e de Suisse Occidentale (HES-SO).
- Mar 02, 2014 - Sep 02, 2015
- Sponsor: Commission pour la technologie et de l'innovation, Office Fédéral de la formation professionnelle et de la technologie.
- Principal investigator: Michel Bierlaire
- Project managers: Yousef Maknoon, Shadi Sharif Azadeh

2013

PostCarWorld: A Trans-Discplinary Multi-Dimensional Stimulation

The goal of this project is to explore the future of mobility through the role of the car. The main originality of this research is to raise the following problem: �What, if the world were a post-car world�. The basic idea is to define a hypothetical situation where the place of the car would have been dramatically reduced and to use qualitative and quantitative simulation methods to examine the consequences of this initial hypothesis. The research is based on the idea that by simulating the future through scenarios we can understand the present better. This project is fully interdisciplinary and trans-disciplinary. It brings together social sciences, engineering sciences, urban planning and urban design in six different laboratories associated to three different universities. The role of TRANSP-OR in this project is to study and optimize an innovative transport system based on accelerated moving walkways (AMW). Differently from constant moving walkways, AMW can reach speeds up to 15km/h thanks to an acceleration section. The project aims to identify the optimal design of a network of AMW using optimization. A network of accelerated moving walkway in a car-free urban environment may present an innovative solution, and this project could delineate the system feasibility.
- Dec 01, 2013 - Nov 30, 2016
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Riccardo Scarinci
Revisiting the Route Choice Problem: A Multi-Level Modeling Framework for Route Choice Analysis Based On Latent Constructs

This project aims at developing behavioral models integrating the latent constructs that drive travel behavior. The objective of the project is to set the foundations of an innovative framework that facilitates the analysis and prediction of route choice behavior. Motivated by the complexity of the route choice models, we build on solid ground of the current state of the art and add on it by proposing a new approach that reduces model complexity and brings great flexibility to the analysis. The approach is inspired by the fact that people break down the complexity of the environment by forming representations of their surrounding space. Following this reasoning, we replace the conventional representation of routes which is based on paths, i.e. link-by-link sequences on the network model, with more aggregate elements that we denote as mental representation items. This key feature of the framework allows us to reduce the complexity of the model and at the same time is more behaviorally realistic.
- Oct 01, 2013 - Sep 30, 2016
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Matthieu de Lapparent
- Collaborator: Evanthia Kazagli

2012

Modular Logistics Units in Shared Co-modal Networks

The objective is to achieve the first genuine contribution to the development of intercontinental logistics at the European level, in close coordination with North America partners and the international Physical Internet Initiative. The goal of the project is to enable operations with developed iso-modular logistics units of size adequate for real modal and co-modal flows of fast-moving consumer goods, providing a basis for an interconnected logistics system for 2030.
- Jul 01, 2012 - Jun 30, 2015
- Sponsor: European Commission
- Principal investigator: Michel Bierlaire
- Project managers: Shadi Sharif Azadeh, Yousef Maknoon
Pedflux: Pedestrian flow modeling in train stations

The aim of this collaborative research project between the Swiss Federal Railways (SBB-CFF-FFS) and EPFL's transportation center is to analyze, model and optimize pedestrian flows in train stations. In recent years, the growing number of passengers has led to difficulties related to pedestrian flows in major train stations. Congestion of pedestrian walkways is increasingly becoming a problem during peak hours, but also due to clustering of people caused by major events or the beginning or end of holiday season. When capacity limits for pedestrian facilities are reached, normal operation of train schedules can be significantly impaired. Since train stations are important nodes within the multimodal public transportation system, it is of major importance that they are operated as efficiently as possible. In addition to the increase in passenger numbers, train stations have been undergoing a profound transformation from simple transit nodes towards versatile hubs that provide interface to short and long-distance train connections, to other modes including private transport by foot, bike and car, as well as to the city offering public space for shopping, eating and alike. This transformation leads to a further increase in pedestrian numbers and additionally introduces new behavior patterns. A sound understanding of pedestrian flows within a train station can help improve overall level of service, customer experience and safety. The main focus of this study lies on the development of a methodology allowing to estimate pedestrian origin-destination (OD) demand within a train station. Specifically, train time table, customer survey data and flow observations from an exhaustive camera system are used as sources of information in this process. Subsequently, the modeling frame work is applied to several case studies in Switzerland.
- Apr 01, 2012 - Mar 31, 2015
- Sponsor: Swiss Federal Railways (SBB)
- Principal investigator: Michel Bierlaire
- Project managers: Micha�l Th�mans, Riccardo Scarinci
- Collaborator: Flurin H�nseler
A DYNAMIC VEHICLE CHOICE FORECASTING FRAMEWORK

The aim of this research project is to develop a dynamic model framework to forecast car demand. The model-system jointly accounts for behavioural variables (e.g. household evolution, individual motivations), institutional factors (e.g. incentives and taxation) and market features (e.g. new fuel or vehicle technology launches) to forecast vehicle acquisition. The project benefits from a large-scale, longitudinal dataset on vehicle transactions from major European markets. Methodologically the framework consists of a system of aggregate, disaggregate and duration-based choice models, accounting for dynamic features of the decision at each stage. Importantly, the proposed dynamic framework enhances realism by representing the durability of possession, rapid changes in value across product and ownership cycles and uncertainty about future market developments and institutional factors. The proposed framework sheds light on the timing and type of vehicle ownership, illustrating the benefits of taking the first steps away from a static approach. The findings will aid the prediction of consumer behaviour in response to critical policy variables, such as incentives, alongside market dynamics, such as the appearance and diffusion of novel technologies. A deeper understanding of future vehicle choice behaviour is critical given sizable institutional and industrial investments to promote alternative vehicle technologies with a final aim to improve energy efficiency in the transportation sector. More information http://transport.epfl.ch/car-market-structure
- Apr 01, 2012 - Apr 30, 2013
- Sponsor: PSA Peugeot-Citroën
- Principal investigator: Michel Bierlaire
- Project manager: Amanda Stathopoulos
- Collaborator: Aur�lie Glerum
Pedestrian dynamics: flows and behavior

This project aims at developing mathematical models of pedestrian dynamics, both at aggregate and disaggregate levels. Integrated and holistic mathematical models will handle the complexity of this unique transport mode and help us to answer open research questions. in the future, such foundations will also allow to create the tools society needs to better understand pedestrian dynamics.
- Apr 01, 2012 - Mar 31, 2015
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project managers: Bilal Farooq, Riccardo Scarinci
- Collaborators: Antonin Danalet, Flurin H�nseler, Marija Nikolic
myTOSA: catenary-free 100% electric urban public mass-transportation system

myTOSA is a simulation tool for the dimensioning, commercial promotion and case study set-up for ABB's revolutionary "catenary-free" 100% electric urban public mass-transportation system TOSA 2013. The objective of the project is to provide a simulation tool that will allow ABB to perform the proper dimensioning, promote the commercial idea and allow for specific study cases for the implementation of ABB's new public electric transportation concept, namely TOSA 2013.
- Mar 01, 2012 - Sep 30, 2013
- Sponsor: Commission pour la technologie et de l'innovation, Office Fédéral de la formation professionnelle et de la technologie.
- Principal investigator: Michel Bierlaire
- Project manager: Jianghang Chen
- Collaborators: Bilge Atasoy, Tom�s Robenek

2011

L�man 2030: Flux pi�tons Gare de Lausanne

In the framework of a 9-month collaboration with CFF, pedestrian flows in Lausanne train station are estimated and modeled. Specifically, an estimation methodology for pedestrian origin-destination demand is developed and applied to predict a demand scenario for 2030. By means of a pedestrian flow simulator, several infrastructure scenarios are quantitatively evaluated, the result of which helps CFF to design and dimension pedestrian underpasses of Gare de Lausanne for the future.
- Oct 01, 2011 - Jul 15, 2012
- Sponsor: Swiss Federal Railways (SBB)
- Principal investigator: Michel Bierlaire
- Project managers: Micha�l Th�mans, Bilal Farooq
- Collaborators: Flurin H�nseler, Antonin Danalet, Sohrab Sahaleh
SIEU : Urban Energy Information System

The role of local authorities in reaching climate and energy goals is important. Consolidated data about energy at the local scale is necessary in order to fully measure the effects of policies and to adapt action-plans. The goal of this project is to evaluate the feasibility of a single platform with all the relevant energy data for a local authority, in particular statistics about mobility.
- Sep 01, 2011 - Jun 30, 2012
- Sponsor: The Ark Energy
- Principal investigator: Michel Bierlaire
- Project manager: Antonin Danalet
- Collaborator: Antonin Danalet
ACTUM

The ACTUM research collaboration project involves development of an activity-based modelling framework for Copenhagen that is aimed at handling the future requirements for transport policy evaluations in Denmark.
- Mar 01, 2011 - Mar 01, 2016
- Sponsor: The Danish Council for Strategic Research
- Principal investigator: Michel Bierlaire
- Project manager: Matthieu de Lapparent
Large scale robust optimization of bulk port operations.

The primary objective of this research is to develop large scale robust optimization algorithms providing sustainable solutions for bulk port operations accounting for uncertainties and disruptions in operations. While significant contributions have been made for container terminals, relatively little attention has been directed to the use of operations research methods and techniques to optimize bulk port operations. In this research we aim to develop large scale mathematical models for bulk port operations, with emphasis on integrated planning; furthermore, we plan to include robustness to account for uncertainties in operations. A broader objective of our work is to study how the methodologies developed for bulk ports can be extended to multi-modal transport operations, including other domains such as container ports, airlines and railways, with a view to optimize the usage and operations of existing infrastructure to achieve sustainability in the mobility of goods and people. The devised models and algorithms will be tested and validated in a real-world context using as a case study, the SAQR port in Ras Al Khaimah, UAE.
- Jan 01, 2011 - Apr 30, 2014
- Sponsor: EPFL Middle East
- Principal investigator: Michel Bierlaire
- Project managers: Nitish Umang, Ilaria Vacca

2010

CLIP-AIR concept: Integrated schedule planning for a new generation of aircrafts

Sustainability has become a key topic in transportation in the last decades where the aim is to reduce the impact of transportation on the environment. One of the most important paths toward sustainability in this sector is to optimize transportation operations required in several dimensions to fulfill a given transport demand. To achieve this goal in the context of multimodal transport, there is a clear need for flexibility in capacity. This flexibility is adequately provided by a new concept developed at EPFL, named Clip-Air, for air transport. Clip-Air is a modular innovative aircraft with detachable load units which enable to adjust at best capacity according to demand. The decoupling of the load (capsules) and carrying units (wings) allows for simplified fleet management and maintenance operations for airlines and is expected to improve the ground operations for airports. Clip-Air also provides effective possibility of combining commercial freight and passengers on the same flight without any compromise in comfort. Besides, Clip-Air is designed to operate in a multi-modal context and is expected to improve the multi-modality concept by allowing a better integration between air transport and other transport modes. The objective of this research is to assess the actual impact of Clip-Air�s modularity on demand satisfaction, operational costs and environmental issues at the system level. The contributions will consist of models and algorithms designed to perform comparative analysis of operations of airlines and airports in various scenarios.
- Nov 01, 2010 - Dec 31, 2013
- Sponsor: EPFL Middle East
- Principal investigator: Michel Bierlaire
- Project managers: Bilge Atasoy, Matteo Salani
NRP 65: Sustainable Urban Patterns (SUPat)

This project aims at developing methodologies for the integration of qualitative an quantitative tools for land use planning and urban project-evaluation . The methodology will allow the interaction between urban design experts and land use modelers, developing techniques to use the description of urban projects and policies as inputs for land use models like UrbanSim and transport models like MATSim. The modeling effort output is used as input for the experts, generating an iterative feedback.
- Oct 01, 2010 - Sep 30, 2013
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project managers: Bilal Farooq, Ricardo Hurtubia
- Collaborator: Dimitrios Efthymiou
Route choice models and smart phone data

Smart phones are able to collect a great wealth of information about the mobility patterns of individuals, including their itinerary. In addition to GPS tracks, smart phones contain several sensors and software revealing various aspects of the user's behavior (nearby Bluetooth devices, WiFi antenna, media players, etc.) Route choice models rely on the knowledge of the origin and the destination of the trip, and the transportation mode. They may also benefit from other contextual data, such as the trip purpose or the chain of subsequent activities. We plan to investigate how to infer this information from the smart phone data.
- Oct 01, 2010 - Sep 30, 2013
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Jingmin Chen
- Collaborator: Jingmin Chen
Optimizing Staffing Plans at Airports

Minimizing operating costs for maintaining ground personnel at airports is a complex problem due to uneven flight activities, passenger service expectations and staffing inflexibilities due to shift durations. In this work, we would use the flight schedule and service criteria to develop a method to find optimal shift timings that considers non-productive time due to activity changeovers, the mix of full-time and part-time workers and passenger waiting time criteria.
- Oct 01, 2010 - Oct 01, 2011
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Prem Kumar
Robust Optimization of Railway Locomotive Assignment

Locomotive assignment at Railway companies is a complex problem that must optimally assign a set of locomotives to known, scheduled trains. Each train has a power and traction requirement and locomotives may be available in groups known as "consist". There is a cost involved in breaking or adding a locomotive to a consist. Determining an optimal locomotive assignment that would also be robust to handle delays, maintenance requirements and other unknown factors is a complex problem. We are inspired from the research in a similar, closely related subject in the airline industry and would explore the possibilities of extending the same to railways. This project would be a part of the larger concept of "Flexible Transportation Systems"
- Oct 01, 2010 - Sep 30, 2011
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Prem Kumar
- Collaborator: Francesco Piu
Demande de consommateurs pour des v�hicules �lectriques

Evaluation de la demande des consommateurs pour des v�hicules �lectriques en vue du lancement d'une telle gamme par Renault
- Aug 01, 2010 - Apr 30, 2011
- Sponsor: Renault Suisse SA
- Principal investigator: Michel Bierlaire
- Project manager: Micha�l Th�mans
- Collaborator: Aur�lie Glerum
A Solution Technique for the Locomotive Refueling Problem

This problem corresponds to refueling locomotives at different station yards during the course of its journey. Locomotive tanks have a fixed fuel capacity and prices of fuel vary across yards. In addition, there is a fixed cost for hiring a refueling truck at a yard and every refueling stop that the locomotive makes. Locomotives can power different train sets during a cyclical planning horizon running 14 days. The objective of this exercise is to minimize the total fuel costs � fixed and operational � for a given set of locomotives, trains and yards. In addition, there are numerous constraints relating to refueling, locomotive tank capacity, refueling truck capacity etc. This problem has similarity to the network flow problem. We formulate this problem as a Mixed Integer Program (MIP) and present our experience in this project.
- Jul 15, 2010 - Jul 15, 2012
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Prem Kumar
SURPRICE: Sustainable mobility through road user charging

Equity effects of congestion charges and intra-individual variation in preferences. A joint research initiative between: Royal Institute of Technology (KTH), Sweden (lead), The Swiss Federal Institute of Technology, Z�rich, Switzerland and Ecole Polytechnique Federale de Lausanne (EPFL), Switzerland
- Jul 05, 2010 - Oct 03, 2011
- Sponsor: Swiss Federal Road Office
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Antonin Danalet
SustainCity: Micro-simulation for the prospective of sustainable cities in Europe

The goal of this project is to address the modelling and computational issues of integrating modern mobility simulations with the latest micro-simulation land use models. The project intends to advance the state-of-the-art in the field of the micro-simulation of prospective integrated models of Land-Use and Transport (LUTI). On the modelling side, the main challenges are to integrate a demographic evolution module, to add an environmental module, to improve the overall consistency and, last but not least, to deal with the multi-scale aspects of the problem: several time horizons and spatial resolutions are involved.
- Jan 01, 2010 - Dec 31, 2012
- Sponsor: European Commission
- Principal investigator: Michel Bierlaire
- Project managers: Ricardo Hurtubia, Bilal Farooq
- Collaborator: Dimitrios Efthymiou
Projet d'agglom�ration Lausanne-Morges - AFTPU - Fourniture d'indicateurs pour alimenter l'analyse multicrit�re pour le choix de la variante de la desserte Nord

Des axes forts de transport public urbain sont � l'�tude dans l'agglom�ration de Lausanne-Morges. Ce projet vise � fournir, � partir du logiciel Emme, des crit�res d'�valuation des diverses variantes de desserte de la partie nord de Lausanne
- Jan 01, 2010 - Jun 30, 2010
- Sponsor: Service des routes et de la mobilité de la Commune de Lausanne
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz

2009

Models and methods for large scale optimization problems and applications in container terminals

We develop new strategies to tackle large scale problems and their optimization. We focus in particular applications arising in the optimization of container terminal operations.
- Dec 01, 2009 - Nov 30, 2012
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project managers: Ilaria Vacca, Matteo Salani
D�pouillement des enqu�tes de mobilit� aux Hautes Ecoles

Examens des comportements de transport des usagers des Hautes Ecoles sur la base d'enq�tes de mobilit� r�guli�res.
- Jun 24, 2009 - Jun 01, 2010
- Sponsor: Ecole Polytechnique Fédérale de Lausanne
- Principal investigator: Michel Bierlaire
- Project managers: Jean-Pierre Leyvraz, Sonia Lavadinho
Methods and tools for supporting the use, calibration and validation of traffic simulation models

The main objective of this Action is to develop, implement and promote methodologies and procedures to support the use of traffic simulations, especially on the topics of calibration and validation. To this aim, the sharing and exchanging of available traffic datasets will also be a key task of the Action.
- May 26, 2009 - May 25, 2013
- Sponsor: European Commission
- Principal investigator: Michel Bierlaire
- Project manager: Bilal Farooq
CATS City Alternative Transport System

The CATS project aims to develop a new urban transport service based on a new generation vehicle. Its major innovation is the utilisation of a single type of vehicle for two different usages: individual use or collective transport. This new transport service is aimed at filling the gap between public mass transport and private individual vehicles. It is based on two operating principles: the self service concept where small and clean urban vehicles are offered on a short term rental basis, and the flexible shuttle service where a variable length of vehicles convoy, driven by a professional driver, operates at fixed hours along a line on a permanent basis or on a case by case basis. Four Cristal vehicles and two stations will be made available by Lohr Industrie to the project for experiments. The CATS project will investigate through an in depth mobility needs analysis, on-site demonstration and showcases, the environmental impact and social acceptance of the introduction of such a new system in three different European cities (Strasbourg FR, Ploeisti, RO, Formello, IT). CATS will complement the design and manufacture of the Cristal vehicle via a detailed definition of its operating principles and by a design of its urban settings (stations, infrastructures,) in accordance with cities and citizens needs.
- Mar 01, 2009 - Feb 29, 2012
- Sponsor: European Commission
- Principal investigator: Michel Bierlaire
- Project manager: Sonia Lavadinho
OPTIMA: Inferring transport mode preferences from attitudes

Swiss Post and PostBus have launched a research project to optimize mobility in cooperation with the Federal Institute of Technology in Lausanne (EPFL), represented by EPFL Transportation Center, under Professor Michel Bierlaire. This will show the market potential for combined mobility. Among other things it will look at the factors that influence travellers in their choice of transport. At a later stage, target group-specific new transport offerings and services will be developed and tested, which will have a lasting influence on this choice. The three years research project is conducted by Professors Vincent Kaufmann (LASUR) and Michel Bierlaire (TRANSP-OR).
- Feb 01, 2009 - Jun 30, 2012
- Sponsor: LaPoste
- Principal investigator: Michel Bierlaire
- Project manager: Anne Curchod
- Collaborators: Aur�lie Glerum, Bilge Atasoy, Antonin Danalet

2008

Disaggregate behavioral models exploiting data from Nokia devices

The projects aims at investigating how to perform an appropriate fusion of data from smartphones in order to predict the mobility behavior of a given individual.
- Dec 01, 2008 - Jun 30, 2010
- Sponsor: Nokia Research Center
- Principal investigator: Michel Bierlaire
- Project manager: Jeffrey Newman
- Collaborator: Jingmin Chen
Simulation-based optimization of a railroad yard

Simulation-based optimization of the operations of Vale's railroad yards.
- Jul 01, 2008 - Feb 28, 2009
- Sponsor: Vale
- Principal investigator: Michel Bierlaire
- Project managers: Matteo Salani, Anne Curchod
NEARCTIS

NEARCTIS (Network of Excellence: Advanced Road Cooperative Traffic management in the Information Society) is an academic network involving teams working on the field of traffic management and optimization, with a particular focus on cooperative systems. The main objective of the project is to constitute what could be considered as a virtual research institute.
- Jul 01, 2008 - Jun 30, 2012
- Sponsor: European Commission
- Principal investigator: Michel Bierlaire
- Project manager: Bilal Farooq
Invariant features in omnidirectional images

Design of algorithms to extract invariant features from images captured by omnidirectional cameras.
- May 20, 2008 - May 01, 2009
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Javier Cruz

2007

SOPHOS: Simulation-based Optimization of the Performance in Hospital Operating suites

Design an optimization framework combining macroscopic and microscopic models, with applications in hospital management and urban road traffic.
- Dec 01, 2007 - Nov 30, 2009
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Carolina Osorio Pizano
Column generation methods for the recovery of disrupted airline schedules

Robust planning and recovery from disruptions for airlines operations
- Oct 01, 2007 - Aug 31, 2010
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Niklaus Eggenberg
Behavioural modelling of human experts for scene analysis

Modelling the global appraisal process of experts in the context of scene analysis.
- Oct 01, 2007 - Sep 30, 2010
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project managers: Javier Cruz, Thomas Robin
Projet d'agglom�ration Lausanne-Morges - Axes forts de transports publics urbains - Mise au point des variantes, choix d'une variante pr�f�rentielle et d'un axe fort prioritaire.

Apr�s avoir retenu certaines variantes d'axes forts de transport en commun dans l'agglom�ration Lausanne-Morges lors d'une �tude pr�c�dente, il s'agissait de choisir une variante pr�rentielle et un axe fort prioritaire. L'�tude a �t� men�e en s'aidant du logiciel EMME.
- Oct 01, 2007 - Jan 10, 2008
- Sponsor: Service de la mobilité du canton de Vaud
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz
Travaux de mod�lisation Emme2 en liens avec projets : SDOL (image directrice), desserte Le Mont, augmentation de capacit� m2

Etudes TL diverses : comparaison entre 2 variantes de futur r�seau, tapis roulant Gare-Flon, prolongation de lignes vers le Mont-sur-Lausanne. en fournissant des indicateurs de qualit� gr�ce � une mod�lisation Emme
- Aug 01, 2007 - Sep 30, 2007
- Sponsor: Transports publics lausannois
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz
Syst�me d'informatique g�ographique pour l'observatoire de la mobilit�

L�Observatoire de la Mobilit� r�alise r�guli�rement des enqu�tes sur les d�placements des �tudiants et collaborateurs en direction des Hautes Ecoles. Actuellement ces personnes entrent l�origine de leur d�placement en donnant le num�ro postal, la localit� et le cas �ch�ant une indication suppl�mentaire (quartier). Ce projet a creus� la possibilit� de donner l�origine en pointant sur une carte, compte tenu � la fois des aspects techniques et de facilit� d�usage par les utilisateurs.
- Jul 03, 2007 - Mar 25, 2008
- Sponsor: Institut du développement territorial (INTER), EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz
Projet d'agglom�ration Lausanne-Morges, �valuation du projet et de ses mesures selon les crit�res �dict�s par la Conf�d�ration, travaux de mod�lisation avec le mod�le EMME2 (contrat CL/2007/02)

Evaluation � l'aide du logiciel Emme de divers projets d'action sur les transports � l'int�rieur de l'agglom�ration Lausanne-Morges : nouvelles jonctions autorouti�res, nouvelles routes d'�vitement, restrictions de vitesse, nouvelles lignes de transport en commun, renforcement du r�seau ferroviaire.
- Jun 01, 2007 - Jul 31, 2007
- Sponsor: Service de la mobilité du canton de Vaud
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz
Projet d'agglom�ration Lausanne-Morges - Axes forts TC - Cadrage strat�gique et d�finition d'un r�seau d'axes forts (contrat FMa/2007/02)

A l'aide du programme Emme, tester l'opportunit� d'implanter certains axes forts de transport en commun dans l'agglom�ration Lausanne-Morges
- Jun 01, 2007 - Jul 31, 2007
- Sponsor: Service de la mobilité du canton de Vaud
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz
Optimization of container terminal operations

Design and development of models and algorithms for the optimization of operations in seaport container terminals.
- Feb 01, 2007 - Nov 30, 2009
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project managers: Ilaria Vacca, Matteo Salani

2006

Mod�le de planification des transports de la r�gion lausannoise: Offre de construction de demandes 2020

Previsions of OD matrices and modal split for 2020 in the Lausanne region
- Aug 01, 2006 - Apr 01, 2007
- Sponsor: Service de la mobilité du canton de Vaud
- Principal investigator: Michel Bierlaire
- Project manager: Jean-Pierre Leyvraz
- Collaborator: Thomas Robin
Path to purchase

To understand consumer behavior in his or her path to purchase.
- Jul 01, 2006 - Jun 30, 2008
- Sponsor: Nestlé
- Principal investigator: Michel Bierlaire
- Project manager: Kamran Houshang Pour
- Collaborators: Thomas Robin, Gianluca Antonini
Schedule disruption recovery for airlines

Development of a software product dedicated to airlines and providing solutions to recover from schedule disruptions with minimum cost.
- Jun 01, 2006 - May 31, 2008
- Sponsor: Commission pour la technologie et de l'innovation, Office Fédéral de la formation professionnelle et de la technologie.
- Principal investigator: Michel Bierlaire
- Project manager: Matteo Salani
- Collaborator: Niklaus Eggenberg
Location of distribution centres

Optimization of the location of distribution centres for Postlogistics, Switzerland
- Mar 15, 2006 - Aug 21, 2006
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Carolina Osorio Pizano
- Collaborator: Thomas Robin

2005

SOPHOS: Simulation-based Optimization of the Performance in Hospital Operating Suites

Design an optimization framework for the operation suites in hospitals, using simulation tools
- Dec 01, 2005 - Nov 30, 2007
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Carolina Osorio Pizano
Einbezug von Reisekosten bei der Modelliering des Mobilit�tsverhalten

Development of route choice models from RP and SP data
- Nov 01, 2005 - Feb 28, 2007
- Sponsor: Swiss Federal Road Office
- Principal investigator: Michel Bierlaire
- Project manager: Emma Frejinger
- Collaborator: Jelena Stojanovic
Development of route choice models

Design new discrete choice models capturing route choice behavior
- May 01, 2005 - Apr 30, 2008
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Emma Frejinger

2004

Enseignement orient� projet assist� par ordinateur

Develop appropriate case studies for teaching optimization to mechanical engineers
- Apr 01, 2004 - Mar 31, 2006
- Sponsor: Fonds d'innovation de la formation de l'EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Emma Frejinger
Mod�les de pr�vision de ventes (Sales forecasting models)

Develop forecasting models for sales of various products, such as printers
- Apr 01, 2004 - May 31, 2004
- Sponsor: infoSource S.A.
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
Optimization methods for advanced discrete choice models

Development of optimization algorithms designed for the maximum likelihood estimation of advanced discrete choice models where the objective function is singular, and non-trivial constraints are imposed on the parameters
- Apr 01, 2004 - Mar 31, 2007
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Micha�l Th�mans
Organisation des tourn�es de bus (Planning of school bus pick-up services)

Develop a prototype of a decision-aiding system for the bus scheduling problem
- Feb 01, 2004 - Mar 31, 2004
- Sponsor: Ecole Nouvelle de la Suisse Romande
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Michela Thi�mard

2003

TIMS: Tourism Instant Marketing and Shopping

Develop a simulation tool to assess dynamic pricing and yield management strategies in ski resorts
- Oct 01, 2003 - Dec 31, 2003
- Sponsor: Commission pour la technologie et de l'innovation, Office Fédéral de la formation professionnelle et de la technologie.
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
Structure and use of human activity spaces

Use of GPS-based data to address three fundamental behavioural questions: (i) size, structure and orientation of the individual activity spaces, (ii) frequency and amplitude of the rythms of visits to different locations, including their competition and (iii) form of the rules of route choice behaviour
- Jun 01, 2003 - May 31, 2004
- Sponsor: Ecole Polytechnique Fédérale de Lausanne
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
Large-scale discrete choice models

We investigate methodological developments designed to handle discrete choice models with a large number of alternatives
- Mar 25, 2003 - Mar 25, 2004
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
D�veloppement de mod�les suisses de pr�diction de la demande en transport pour des applications en temps r�el (Development of Swiss models for transportation demand prediction in the context of traffic management systems)

Development of operational disaggregate demand models for efficient dynamic traffic managment systems
- Jan 01, 2003 - Dec 31, 2004
- Sponsor: VSS - Association of Swiss Road and Traffic Engineers
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Micha�l Th�mans

2002

SIMBAD: Simulation-Based Automatic Detection

Develop a model-based detection system where the scene analysis is supported by a crowd simulator
- Oct 01, 2002 - Sep 30, 2004
- Sponsor: Commission pour la technologie et de l'innovation, Office Fédéral de la formation professionnelle et de la technologie.
- Principal investigator: Michel Bierlaire
- Project manager: Mats Weber
- Collaborator: Gianluca Antonini
Pedestrian simulation

We develop models of pedestrian movements based on discrete choice analysis.
- Oct 01, 2002 - Oct 01, 2004
- Sponsor: Transport and Mobility Laboratory, EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborators: Gianluca Antonini, Thomas Robin, Javier Cruz
Behavioral model-based scene analysis

Development of disaggregate behavior model for scene analysis in the context of video surveillance
- Jul 01, 2002 - Jun 30, 2005
- Sponsor: NCCR Interactive Multimodal Information Management
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Gianluca Antonini
Simulation du bloc op�ratoire et de la salle de r�veil (Simulation of the surgery block)

Design and implement a model to simulate the operations of the surgery block in the Geneva Hospital
- Apr 01, 2002 - Mar 31, 2004
- Sponsor: Hôpitaux Universitaires de Genève
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
Doped derivative-free algorithms for medical image registration

Design of a new class of derivative-free algorithms exploiting some derivative information, customized for the image registration problem
- Apr 01, 2002 - Mar 31, 2005
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Rodrigue Oeuvray

2001

New algorithms for the route guidance generation problem

Development of new algorithms to solve the route guidance generation problem, based on several formulations of the problem, combining a fixed-point approach with an optimization approach
- Apr 01, 2001 - Mar 31, 2004
- Sponsor: Swiss National Science Foundation
- Principal investigator: Michel Bierlaire
- Project manager: Frank Crittin
Algorithmes d'optimisation performants pour le recalage rigide d'images en radiochirurgie et en radioth�rapie st�r�otaxique fractionn�e assist�es par ordinateur

Development and adaptations of efficient optimisation algorithms dedicated to brain images registration
- Mar 01, 2001 - Mar 31, 2002
- Sponsor: Fonds UNIL-EPFL
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Rodrigue Oeuvray
Plan de gestion du trafic: Etude pilote pour la Suisse Occidentale (traffic management plan: pilot survey in Western Switzerland)

Implementation and evaluation of a real-time traffic prediciton model for the Western Switzerland highway network
- Mar 01, 2001 - May 31, 2002
- Sponsor: Swiss Federal Road Office
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire

2000

PAPABILES

Evaluation of a traffic control system in Lausanne, using MITSIM laboratory, a state-of-the-art simulation tool developed by the Intelligent Transportation Systems Program, MIT
- Mar 01, 2000 - Aug 31, 2001
- Sponsor: Etat de Vaud
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
Optimisation de grande taille sans d�riv�s (Large-scale derivate-free optimization)

Develop a new research track in large-scale derivative-free optimization
- Jan 01, 2000 - Jan 01, 2001
- Sponsor: Ecole Polytechnique Fédérale de Lausanne
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Frank Crittin

1998

Development and Evaluation of DynaMIT, a real-time Dynamic Traffic Assignment system for traffic prediction and guidance generation

Collaborate with MIT for the development and evaluation of DynaMIT, a Dynamic Traffic Assignment System (DTA) that supports real-time applications such as synamic route guidance and adaptative traffic control
- Oct 01, 1998 - Oct 31, 2001
- Sponsor: Intelligent Transportation Systems Program, Massachusetts Institute of Technology
- Principal investigator: Michel Bierlaire
- Project manager: Michel Bierlaire
- Collaborator: Frank Crittin

EPFL courses [75]

Spring 2024

Introduction to Transportation Systems.
- Level: Bachelor
- Section: Civil Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Marija Kukic, Negar Rezvany
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Cloe Cortes Balcells, L�a Ricard, Pavel Ilinov
- Webpage: http://transp-or.epfl.ch/courses/OptSim2024

Fall 2023

Introduction to optimization and operations research .
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Fabian Torres, L�a Ricard, Marija Kukic, Tom Haering, Negar Rezvany
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Evangelos Paschalidis, Nicola Ortelli, Janody Pougala, Cloe Cortes Balcells, Pavel Ilinov, Risa Kobayashi
- Webpage: https://moodle.epfl.ch/course/view.php?id=1001

Spring 2023

Introduction to Transportation Systems.
- Level: Bachelor
- Section: Civil Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Marija Kukic, Janody Pougala, Mengyi Wang
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Cloe Cortes Balcells, Selin Atac
- Webpage: http://transp-or.epfl.ch/courses/OptSim2023

Fall 2022

Introduction to optimization and operations research .
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Fabian Torres, Selin Atac, Marija Kukic, Negar Rezvany
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Silvia Varotto, Nicola Ortelli, Cloe Cortes Balcells, Tom Haering
- Webpage: https://moodle.epfl.ch/course/view.php?id=1001

Spring 2022

Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Silvia Varotto, Selin Atac, Cloe Cortes Balcells
- Webpage: http://transp-or.epfl.ch/courses/OptSim2022

Spring 2021

Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Rico Krueger, Melvin Wong
- Webpage: http://transp-or.epfl.ch/courses/OptSim2021

Fall 2020

Introduction to optimization and operations research .
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Nour Dougui, Selin Atac, Stefano Bortolomiol, Marija Kukic, None None, Gael Lederrey, Cloe Cortes Balcells, Negar Rezvany
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Melvin Wong, Rico Krueger, Janody Pougala, Nicola Ortelli, Meritxell Pacheco, Tim Hillel
- Webpage: https://moodle.epfl.ch/course/view.php?id=1001

Spring 2020

Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Rico Krueger, Melvin Wong
- Webpage: http://transp-or.epfl.ch/courses/OptSim2020/

Fall 2019

Introduction to optimization and operations research .
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Nour Dougui, Selin Atac, Stefano Bortolomiol, Nicholas Molyneaux, Gael Lederrey
- Webpage: https://moodle.epfl.ch/course/view.php?id=14491
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Tim Hillel, Meritxell Pacheco, Janody Pougala, Nicola Ortelli
- Webpage: https://moodle.epfl.ch/course/view.php?id=1001

Spring 2019

Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Yuki Oyama, Nikola Obrenovic
- Webpage: http://transp-or.epfl.ch/courses/OptSim2019/

Fall 2018

Introduction � l'optimisation et � la recherche op�rationnelle.
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Nikola Obrenovic, Nour Dougui, Stefano Bortolomiol, Selin Atac, Gael Lederrey
- Webpage: http://transp-or.epfl.ch/courses/optimization2018/
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Meritxell Pacheco, Yuki Oyama, Nicholas Molyneaux
- Webpage: http://transp-or.epfl.ch/courses/dca2018

Spring 2018

Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Yuki Oyama, Nikola Obrenovic, Riccardo Scarinci
- Teaching assistants: Gael Lederrey, Zhengchao Wang
- Webpage: http://transp-or.epfl.ch/courses/OptSim2018/

Fall 2017

Introduction � l'optimisation et � la recherche op�rationnelle.
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Virginie Lurkin, Gael Lederrey, Nikola Obrenovic
- Webpage: http://transp-or.epfl.ch/courses/optimization2017/
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Meritxell Pacheco, Anna Fernandez Antolin, Evanthia Kazagli, Yuki Oyama
- Webpage: http://transp-or.epfl.ch/courses/dca2017

Spring 2017

Enjeux mondiaux : Mobilit� A.
- Level: Bachelor
- Section: All sections
- Lecturer: Michel Bierlaire
- Teaching assistants: Nicholas Molyneaux, Stefan Binder
- Webpage: http://moodle.epfl.ch/course/view.php?id=13982
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Riccardo Scarinci
- Teaching assistants: Marija Nikolic, Stefan Binder
- Webpage: http://transp-or.epfl.ch/courses/OptSim2017/

Fall 2016

Introduction � l'optimisation et � la recherche op�rationnelle.
- Level: Bachelor
- Sections: Mechanical Engineering, Civil Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Yousef Maknoon
- Webpage: http://transp-or.epfl.ch/courses/optimization2016/
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Evanthia Kazagli, Anna Fernandez Antolin, Meritxell Pacheco
- Webpage: http://transp-or.epfl.ch/courses/dca2016

Spring 2016

Enjeux mondiaux : Mobilit� A.
- Level: Bachelor
- Section: All sections
- Lecturer: Michel Bierlaire
- Teaching assistants: Stefan Binder, Shadi Sharif Azadeh
- Webpage: http://moodle.epfl.ch/course/view.php?id=13982
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Riccardo Scarinci, Yousef Maknoon
- Teaching assistants: Iliya Markov, Marija Nikolic
- Webpage: http://transp-or.epfl.ch/courses/OptSim2016/

Fall 2015

Introduction � l'optimisation et � la recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Mechanical Engineering, Environmental Sciences and Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Shadi Sharif Azadeh, Yousef Maknoon
- Webpage: http://moodle.epfl.ch/course/view.php?id=14491
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturers: Michel Bierlaire, Matthieu de Lapparent
- Teaching assistants: Evanthia Kazagli, Anna Fernandez Antolin
- Webpage: http://transp-or.epfl.ch/courses/dca2015/

Spring 2015

Enjeux Mondiaux.
- Level: Bachelor
- Section: All sections
- Lecturer: Michel Bierlaire
- Teaching assistants: Stefan Binder, Flurin H�nseler
- Webpage: http://moodle.epfl.ch/course/view.php?id=13982
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Riccardo Scarinci, Yousef Maknoon
- Teaching assistants: Tom�s Robenek, Marija Nikolic
- Webpage: http://transp-or.epfl.ch/courses/OptSim2015/

Fall 2014

Introduction � l'optimisation.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering, Mechanical Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Shadi Sharif Azadeh
- Webpage: http://transp-or.epfl.ch/courses/opti2014
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturers: Michel Bierlaire, Matthieu de Lapparent
- Teaching assistants: Anna Fernandez Antolin, Evanthia Kazagli
- Webpage: http://transp-or.epfl.ch/courses/dca2014/

Spring 2014

Enjeux mondiaux.
- Level: Bachelor
- Section: All sections
- Lecturer: Michel Bierlaire
- Teaching assistants: Stefan Binder, Antonin Danalet
- Webpage: http://moodle.epfl.ch/course/view.php?id=13982
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Riccardo Scarinci, Jianghang Chen
- Teaching assistants: Tom�s Robenek, Marija Nikolic
- Webpage: http://transp-or.epfl.ch/courses/OptSim2014/

Fall 2013

Introduction � l'optimisation diff�rentiable.
- Level: Bachelor
- Sections: Mechanical Engineering, Electrical and Electronics Engineering, Chemistry and Chemical Engineering, Computer science
- Lecturer: Michel Bierlaire
- Teaching assistant: Nitish Umang
- Webpage: http://transp-or.epfl.ch/courses/optimizationfall2013/
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturers: Michel Bierlaire, Amanda Stathopoulos
- Teaching assistants: Evanthia Kazagli, Anna Fernandez Antolin
- Webpage: http://transp-or.epfl.ch/courses/dca2013/
Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Nitish Umang
- Webpage: http://transp-or.epfl.ch/courses/rofall2013/

Spring 2013

Decision-aid methodologies in transportation.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Jianghang Chen
- Teaching assistants: Evanthia Kazagli, Tom�s Robenek
- Webpage: http://transp-or.epfl.ch/courses/decisionAid2013
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Bilal Farooq, Jianghang Chen
- Teaching assistants: Aur�lie Glerum, Antonin Danalet
- Webpage: http://transp-or.epfl.ch/courses/OptSim2013/

Fall 2012

Introduction � l'optimisation diff�rentiable.
- Level: Bachelor
- Sections: Mechanical Engineering, Electrical and Electronics Engineering, Chemistry and Chemical Engineering, Computer science
- Lecturer: Michel Bierlaire
- Teaching assistant: Bilge Atasoy
- Webpage: http://transp-or.epfl.ch/courses/optimization2012/
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Antonin Danalet, Amanda Stathopoulos
- Webpage: http://transp-or.epfl.ch/courses/dca2012/

Spring 2012

Decision-aid methodologies in transportation.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Prem Kumar
- Teaching assistants: Jingmin Chen, Nitish Umang
- Webpage: http://transp-or.epfl.ch/courses/decisionAid2012
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Bilal Farooq, Prem Kumar
- Teaching assistant: Nitish Umang
- Webpage: http://transp-or.epfl.ch/courses/OptSim2012/
Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Flurin H�nseler
- Webpage: http://transp-or.epfl.ch/courses/ro2012

Fall 2011

Introduction � l'optimisation diff�rentiable.
- Level: Bachelor
- Sections: Mechanical Engineering, Electrical and Electronics Engineering, Chemistry and Chemical Engineering, Computer science
- Lecturer: Michel Bierlaire
- Teaching assistants: Bilge Atasoy, Nitish Umang
Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Aur�lie Glerum, Antonin Danalet
- Webpage: http://transp-or.epfl.ch/courses/dca2011/
Mod�lisation des syst�mes �nergie et Transports.
- Level: Master
- Section: Civil Engineering
- Lecturers: Anne Curchod, Michel Bierlaire
- Webpage: http://moodle.epfl.ch/course/view.php?id=1251

Spring 2011

Decision-aid methodologies in transportation.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Prem Kumar
- Teaching assistants: Jingmin Chen, Nitish Umang
- Webpage: http://transp-or.epfl.ch/courses/decisionAid2011
Intelligent Transportation Systems.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Gunnar Fl�tter�d
- Webpage: http://moodle.epfl.ch/course/view.php?id=9901
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Gunnar Fl�tter�d
- Teaching assistant: Ilaria Vacca
- Webpage: http://moodle.epfl.ch/course/view.php?id=6791
Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Mamy Fetiarison, Francesco Piu
- Webpage: http://transp-or.epfl.ch/courses/ro2011/

Fall 2010

Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Master in Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Aur�lie Glerum, Thomas Robin
- Webpage: http://transp-or.epfl.ch/dca2010/
Mod�lisation des syst�mes �nergie et Transports.
- Level: Master
- Section: Civil Engineering
- Lecturers: Anne Curchod, Michel Bierlaire
- Webpage: http://moodle.epfl.ch/course/view.php?id=1251

Spring 2010

M�thodologies d'aide � la d�cision dans le domaine des transports.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Gunnar Fl�tter�d, Jean-Pierre Leyvraz, Niklaus Eggenberg
Optimization and Simulation.
- Level: PhD
- Section: Doctoral program in Civil and Environmental Engineering
- Lecturers: Michel Bierlaire, Gunnar Fl�tter�d
- Teaching assistant: Ilaria Vacca
- Webpage: http://moodle.epfl.ch/course/view.php?id=6791
Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Mamy Fetiarison, Bilge Atasoy
- Webpage: http://transp-or.epfl.ch/courses/RechOp/09-10
Transport et t�l�matique.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Jean-Pierre Leyvraz

Fall 2009

Mathematical Modeling of Behavior.
- Level: Master
- Section: Mathematics
- Lecturer: Michel Bierlaire
- Teaching assistants: Thomas Robin, Jingmin Chen
- Webpage: NULL
Mod�lisation des syst�mes �nergie et Transports.
- Level: Master
- Sections: Civil Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Javier Cruz, Ricardo Hurtubia
- Webpage: http://moodle.epfl.ch/course/view.php?id=1251

Spring 2009

M�thodologies d'aide � la d�cision dans le domaine des transports.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Matteo Salani, Jean-Pierre Leyvraz, Gunnar Fl�tter�d
- Webpage: http://moodle.epfl.ch/course/view.php?id=2361
Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Mamy Fetiarison, Jingmin Chen
- Webpage: NULL
Transport et t�l�matique.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Jean-Pierre Leyvraz

Fall 2008

Mathematical modeling of behavior.
- Level: Master
- Sections: Mathematics, Management of Technology and Financial Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Thomas Robin, Jeffrey Newman
- Webpage: NULL
Mod�lisation des syst�mes �nergie et Transports.
- Level: Master
- Sections: Civil Engineering, Electrical and Electronics Engineering
- Lecturer: Michel Bierlaire
- Teaching assistants: Javier Cruz, Ricardo Hurtubia
- Webpage: http://moodle.epfl.ch/course/view.php?id=1251

Spring 2008

Mathematical models and algorithms for decision-making support.
- Level: Master
- Sections: Mathematics, Mechanical Engineering
- Lecturers: Michel Bierlaire, Matteo Salani
- Webpage: NULL
M�thodologies d'aide � la d�cision dans le domaine des transports.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Matteo Salani, Jean-Pierre Leyvraz, Zachary Patterson
Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Ilaria Vacca
Transport et t�l�matique.
- Level: Master
- Section: Civil Engineering
- Lecturers: Michel Bierlaire, Jean-Pierre Leyvraz

Fall 2007

Mod�lisation des syst�mes �nergie et Transports.
- Level: Master
- Section: Civil Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Javier Cruz
Mod�lisation math�matique du comportement.
- Level: Master
- Section: Mathematics
- Lecturer: Michel Bierlaire
- Teaching assistants: Carolina Osorio Pizano, Thomas Robin

Spring 2007

Recherche op�rationnelle.
- Level: Bachelor
- Sections: Civil Engineering, Environmental Sciences and Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Matteo Salani
Transport et t�l�matique.
- Level: Master
- Section: Civil Engineering
- Lecturer: Michel Bierlaire
- Teaching assistant: Jean-Pierre Leyvraz

Fall 2006

Mod�lisation math�matique du comportement.
- Level: Master
- Section: Mathematics
- Lecturer: Michel Bierlaire
- Teaching assistant: Carolina Osorio Pizano
Optimisation 1.
- Level: Bachelor
- Sections: Mechanical Engineering, Electrical and Electronics Engineering, Communication Systems
- Lecturer: Michel Bierlaire
- Teaching assistant: Niklaus Eggenberg

Lectures [61]

2019

Economic Applications of Discrete Choice Models.
- Doctoral Training Unit Minlab, University of Luxembourg, Luxembourg
- Apr 08, 2019 - Apr 10, 2019
- Lecturer: Michel Bierlaire
Mixture Models.
- Discrete Choice Analysis: Predicting Individual Behavior and Market Demand, EPFL, Lausanne, Switzerland
- Mar 24, 2019 - Mar 28, 2019
- Lecturer: Michel Bierlaire
Discrete Panel data.
- Discrete Choice Analysis: Predicting Individual Behavior and Market Demand, EPFL, Lausanne, Switzerland
- Mar 24, 2019 - Mar 28, 2019
- Lecturer: Michel Bierlaire
Simulation-based estimation.
- Discrete Choice Analysis: Predicting Individual Behavior and Market Demand, EPFL, Lausanne, Switzerland
- Mar 24, 2019 - Mar 28, 2019
- Lecturer: Michel Bierlaire

2014

Mathematical Modeling of Choice Behavior: from Theory to Practice .
- Mathematical Modeling of Choice Behavior: from Theory to Practice , Chaire Francqui Internationale, University of Namur, Belgium
- Mar 12, 2014 - Mar 14, 2014
- Lecturer: Michel Bierlaire
Choice theory.
- Mathematical Modeling of Choice Behavior: from Theory to Practice , Chaire Francqui Internationale, University of Namur, Belgium
- Mar 12, 2014 - Mar 14, 2014
- Lecturer: Michel Bierlaire
Binary choice.
- Mathematical Modeling of Choice Behavior: from Theory to Practice , Chaire Francqui Internationale, University of Namur, Belgium
- Mar 12, 2014 - Mar 14, 2014
- Lecturer: Michel Bierlaire
Choice among many alternatives.
- Mathematical Modeling of Choice Behavior: from Theory to Practice , Chaire Francqui Internationale, University of Namur, Belgium
- Mar 12, 2014 - Mar 14, 2014
- Lecturer: Michel Bierlaire
Forecasting.
- Mathematical Modeling of Choice Behavior: from Theory to Practice , Chaire Francqui Internationale, University of Namur, Belgium
- Mar 12, 2014 - Mar 14, 2014
- Lecturer: Michel Bierlaire

2013

Estimation of Binary Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2013 - Mar 28, 2013
- Lecturer: Michel Bierlaire
- Assistants: Antonin Danalet, Aur�lie Glerum
Multivariate Extreme Value Models - Sampling and Estimation.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2013 - Mar 28, 2013
- Lecturer: Michel Bierlaire
- Assistants: Antonin Danalet, Aur�lie Glerum
Mixture Models; Simulation-based Estimation.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2013 - Mar 28, 2013
- Lecturer: Michel Bierlaire
- Assistants: Antonin Danalet, Aur�lie Glerum
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2013 - Mar 28, 2013
- Lecturer: Michel Bierlaire
- Assistants: Antonin Danalet, Aur�lie Glerum

2012

Estimation of Binary Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Jan 29, 2012 - Feb 02, 2012
- Lecturer: Michel Bierlaire
- Assistants: Aur�lie Glerum, Antonin Danalet
Discrete Panel Data.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Jan 29, 2012 - Feb 02, 2012
- Lecturer: Michel Bierlaire
- Assistants: Aur�lie Glerum, Antonin Danalet
Extreme Value Models; Sampling and Estimation.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Jan 29, 2012 - Feb 02, 2012
- Lecturer: Michel Bierlaire
- Assistants: Aur�lie Glerum, Antonin Danalet
Mixture Models and simulation-based Estimation.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Jan 29, 2012 - Feb 02, 2012
- Lecturer: Michel Bierlaire
- Assistants: Aur�lie Glerum, Antonin Danalet
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Jan 29, 2012 - Feb 02, 2012
- Lecturer: Michel Bierlaire
- Assistants: Aur�lie Glerum, Antonin Danalet

2011

Estimation of Binary Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 20, 2011 - Mar 24, 2011
- Lecturer: Michel Bierlaire
- Assistants: Thomas Robin, Aur�lie Glerum
Discrete Panel Data.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 20, 2011 - Mar 24, 2011
- Lecturer: Michel Bierlaire
- Assistants: Thomas Robin, Aur�lie Glerum
Extreme Value Models; Sampling.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 20, 2011 - Mar 24, 2011
- Lecturer: Michel Bierlaire
- Assistants: Thomas Robin, Aur�lie Glerum
Mixture Models and simulation-based Estimation.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 20, 2011 - Mar 24, 2011
- Lecturer: Michel Bierlaire
- Assistants: Thomas Robin, Aur�lie Glerum
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 20, 2011 - Mar 24, 2011
- Lecturer: Michel Bierlaire
- Assistants: Thomas Robin, Aur�lie Glerum

2010

Nested logit.
- Short course on Transport Modeling, EPFL Middle East, Ras-Al-Khaima, UAE
- Nov 10, 2010
- Lecturer: Michel Bierlaire
Statistical tests .
- Short course on Transport Modeling, EPFL Middle East, Ras-Al-Khaima, UAE
- Nov 09, 2010
- Lecturer: Michel Bierlaire
Introduction to choice theory .
- Short course on Transport Modeling, EPFL Middle East, Ras-Al-Khaima, UAE
- Nov 08, 2010
- Lecturer: Michel Bierlaire
Logit models: 2 alternatives .
- Short course on Transport Modeling, EPFL Middle East, Ras-Al-Khaima, UAE
- Nov 08, 2010
- Lecturer: Michel Bierlaire
Estimation of binary choice models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Feb 07, 2010 - Feb 11, 2010
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Multivariate Extreme Value Models - Sampling and Estimatio.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Feb 07, 2010 - Feb 11, 2010
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Mixture Models; Simulation-based Estimation.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Feb 07, 2010 - Feb 11, 2010
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Feb 07, 2010 - Feb 11, 2010
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Estimation of Discrete Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Feb 07, 2010 - Feb 11, 2010
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin

2009

Estimation of binary choice models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2009 - Mar 28, 2009
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2009 - Mar 28, 2009
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Estimation of Discrete Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2009 - Mar 28, 2009
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Mixture Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 24, 2009 - Mar 28, 2009
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Analyse de la demande en transport. Les mod�les de choix discrets.
- Formation sur l'�conomie et la planification des transports, Office F�d�ral des Transports, Berne, Switzerland
- Mar 19, 2009
- Lecturer: Michel Bierlaire

2008

Nonlinear specifications.
- Summer School on 'Discrete Choice Models, University of Bologna, Imola (Bologna), Italy
- Jul 17, 2008
- Lecturer: Michel Bierlaire
Tests.
- Summer School on 'Discrete Choice Models, University of Bologna, Imola (Bologna), Italy
- Jul 17, 2008
- Lecturer: Michel Bierlaire
.
- Modeling and Simulation in Logistics, International Institute for the Management of Logistics, Lausanne, Switzerland
- May 19, 2008 - May 23, 2008
- Lecturer: Michel Bierlaire
- Assistant: Carolina Osorio Pizano
Estimation of binary choice models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 25, 2008 - Mar 29, 2008
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Multivariate Extreme Value Models - Sampling Strategies.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 25, 2008 - Mar 29, 2008
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 25, 2008 - Mar 29, 2008
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Thomas Robin

2007

A short introduction to discrete choice models.
- A short introduction to discrete choice models, Universiteit Antwerpen, Antwerp, Belgium
- Dec 19, 2007 - Dec 20, 2007
- Lecturer: Michel Bierlaire
Mod�lisation et simulation du comportement -Mod�les de choix discret.
- Mod�lisation et simulation en logistique, Institut International de Management pour la Logistique, Paris, France
- Dec 10, 2007 - Dec 14, 2007
- Lecturer: Michel Bierlaire
- Assistant: Carolina Osorio Pizano
Modeling transport networks: Route choice models.
- TransportNET course on Transport Systems, EPFL, Lausanne, Switzerland
- Sep 10, 2007
- Lecturer: Michel Bierlaire
Modeling and simulation of behavior: discrete choice models.
- Modeling and Simulation in Logistics, International Institute for the Management of Logistics, Lausanne, Switzerland
- May 03, 2007
- Lecturer: Michel Bierlaire
- Assistant: Thomas Robin
Sampling Strategies for Discrete Choice Analysis.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 29, 2007
- Lecturer: Michel Bierlaire
Multivariate (Generalized) Extreme Value Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 27, 2007
- Lecturer: Michel Bierlaire
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 26, 2007
- Lecturer: Michel Bierlaire
Estimation of Binomial Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 25, 2007
- Lecturer: Michel Bierlaire

2006

Mod�lisation du comportement humain: m�thodologie.
- Mod�lisation et simulation en logistique, Institut International de Management pour la Logistique, Paris, France
- Dec 11, 2006 - Dec 15, 2006
- Lecturer: Michel Bierlaire
- Assistants: Emma Frejinger, Carolina Osorio Pizano
Introduction � la planification routi�re.
- Unit� d�enseignement Am�nagement urbain, mobilit� et environnement, ENAC, EPFL, Lausanne, Switzerland
- Nov 14, 2006
- Lecturer: Michel Bierlaire
Mod�lisation du comportement humain: m�thodologie.
- Modeling and Simulation in Logistics, International Institute for the Management of Logistics, Lausanne, Switzerland
- May 01, 2006 - May 05, 2006
- Lecturer: Michel Bierlaire
- Assistants: Carolina Osorio Pizano, Emma Frejinger
Multivariate (Generalized) Extreme Value Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 28, 2006
- Lecturer: Michel Bierlaire
Specification and Estimation of Logit Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 27, 2006
- Lecturer: Michel Bierlaire
Estimation of Binomial Choice Models.
- Discrete Choice Analysis: Predicting Demand and Market Shares, EPFL, Lausanne, Switzerland
- Mar 26, 2006
- Lecturer: Michel Bierlaire

2004

Introduction to Continuous optimization: convex methods - Conic programming.
- ADONET, Doctoral School in Discrete System Optimization, EPFL, Lausanne, Switzerland
- Jun 21, 2004 - Jul 02, 2004
- Lecturer: Michel Bierlaire
Introduction to continuous optimization: convex methods - Conic quadratic programming.
- ADONET Doctoral school in Discrete system optimization, EPFL, Lausanne, Switzerland
- Jun 21, 2004 - Jul 02, 2004
- Lecturer: Michel Bierlaire
Algorithms, Interior point methods.
- ADONET Doctoral school in Discrete system optimization, EPFL, Lausanne, Switzerland
- Jun 21, 2004 - Jul 02, 2004
- Lecturer: Michel Bierlaire
Algorithms, Sequential quadratic programming.
- ADONET Doctoral school in discrete system optimization, EPFL, Lausanne, Switzerland
- Jun 21, 2004 - Jul 02, 2004
- Lecturer: Michel Bierlaire

MSc theses [93]

2024

Cost Control Methodology for Infrastructure Projects in Construction Phase, Esteban Requena (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert:
TBD, Martim Beels (None)
- Supervision: Michel Bierlaire
- External expert: Dr Christophe Salzmann
Optimizing Gas Storage Strategies: Addressing Price Fluctuations and Leakage through a Mercuria Case Study, Antoine Goupil de Bouille (Mathematics)
- Supervision: Michel Bierlaire, Cloe Cortes Balcells, Fabian Torres
- External expert:
Solve the problem of the EPFL campus in MOBi, Preto Anne-Valérie (None)
- Supervision: Negar Rezvany, Fabian Torres, Michel Bierlaire
- External expert: Antonin Danalet
Stochastic on-demand electric vehicle routing and charge scheduling, Mohamed Essayouti (Mathematics)
- Supervision: Léa Ricard, Tom Haering, Michel Bierlaire
- External expert: Claudia Bongiovanni
Application of the information-theoretic clustering to the discrete choice, Alexandre Monti (Mathematics)
- Supervision: Pavel Ilinov, Evangelos Paschalidis, Michel Bierlaire
- External expert:

2023-2024

Modeling the Influence of Fear on Daily Activity Scheduling during a Pandemic through an Endogenous Choice Set Formation Approach., Dixit Sabharwal (Communication Systems)
- Supervision: Michel Bierlaire, Cloe Cortes Balcells, Janody Pougala
- External expert:
Actualisation des méthodes d'analyse des carrefours giratoires, Pablo Garcia (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Franco Tufo
Learning joint rebalancing and dynamic pricing policies for Autonomous Mobility-on-Demand systems, Xinling Li (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Filipe Rodrigues

2023

Decision-Focused Learning for Transportation Network Design, Lucas Bataillard (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Emma Frejinger
Optimisation et Déploiement d’une méthode de calculation au sein d’un groupe actif dans le second œuvre, Thomas Poulain (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Bastien Sauve
Energy efficiency estimation of buildings in Switzerland based on open-source data with machine learning models, Hilda Horvath (Master in Data Science)
- Supervision: Michel Bierlaire
- External expert: Félix Arbez-Gindre
Capturing dynamics in synthetic population, Salim Benchelabi (Mathematics)
- Supervision: Marija Kukic, Janody Pougala, Michel Bierlaire
- External expert: Antonin Danalet
Synthetic generation of activity motifs, Quentin Bochud (Civil Engineering)
- Supervision: Marija Kukic, Janody Pougala, Michel Bierlaire
- External expert: Gael Lederrey

2022-2023

Orders Allocation Management with Upstream Consolidation, Olivier Laferrere (None)
- Supervision: Fabian Torres, Michel Bierlaire
- External expert:

2022

Artificial intelligence for supply chain management and optimisation, Pierre Bouquet (Mechanical Engineering)
- Supervision: Michel Bierlaire
- External expert:
Targeted COVID-19 policies in Switzerland: A review of different optimization strategies., Mattia Mariantoni (Mathematics)
- Supervision: Michel Bierlaire, Cloe Cortes Balcells, Nour Dougui
- External expert: Joseph Lemaitre

2021-2022

Modélisation du réseau de transports publics genevois à la suite d'un événement réseau, Nicolas Richter (Civil Engineering)
- Supervision: Marija Kukic, Janody Pougala, Michel Bierlaire
- External expert: Antoine Stroh

2020-2021

Simulating realistic traffic flows to predict bridge loadings, Isabelle Pumford (Computer science)
- Supervision: Tim Hillel, Michel Bierlaire
- External expert: Dimitrios Papastergiou, ASTRA

2020

Feuille de route pour l'électrification du réseau de bus urbains de Lausanne à l'horizon 2030, Alain Azzi (Mechanical Engineering)
- Supervision: Nicola Ortelli, Janody Pougala, Michel Bierlaire
- External expert: Philippe Seydoux
Generating daily activity schedules using machine learning, Sergej Gasparovich (Civil Engineering)
- Supervision: Janody Pougala, Tim Hillel, Michel Bierlaire
- External expert: Antonin Danalet
Transportation mode classification with smartphone accelerometer data: An end-to-end deep learning approach, Julien Harbulot (None)
- Supervision: Rico Krueger, Michel Bierlaire
- External expert: Florent Martin
Risk assessment of pedestrian crossings, Adrien Nicolet (Civil Engineering)
- Supervision: Nicholas Molyneaux, Gael Lederrey, Michel Bierlaire
- External expert:

2019-2020

Investigations on a pilot-survey for modelling mobility behaviours in Switzerland, René Lugrin (Civil Engineering)
- Supervision: Meritxell Pacheco, Michel Bierlaire
- External expert: Sylvie Garda

2019

Disruption-caused railway timetable rescheduling problem and its solution, Oliver Buschor (Civil Engineering)
- Supervision: Meritxell Pacheco, Stefano Bortolomiol, Michel Bierlaire
- External expert: Hellwig Matthias
Warehouse inventory management optimization in Rolex SA, Rym Karime (Civil Engineering)
- Supervision: Nikola Obrenovic, Selin Atac, Michel Bierlaire
- External expert: Bruno Delaborde
Dynamic optimization of a bicycle-sharing system, Mohamed Detsouli (Civil Engineering)
- Supervision: Stefano Bortolomiol, Michel Bierlaire
- External expert: Frédéric Meunier
Evaluation of Bootstrap methods, Jessica Hopkins (Mathematics)
- Supervision: Tim Hillel, Gael Lederrey, Michel Bierlaire
- External expert: Damon Wischik
Heuristic algorithms to find market equilibria in oligopolies, Nicolas Pradignac (Computer science)
- Supervision: Stefano Bortolomiol, Nikola Obrenovic, Michel Bierlaire
- External expert: Olivier Gallay

2018-2019

Automatic utility specification using machine learning techniques, Nicola Ortelli (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Francesco Pereira
Innovative technologies for improvement of airport accessibility with the applications to Geneva Airport, Thibaut Guillaume Marie Richard (Civil Engineering)
- Supervision: Nikola Obrenovic, Selin Atac, Michel Bierlaire
- External expert: Philippe Canal, Virginie Marche

2017-2018

Moving walkways in train stations, Charles Jeanbart (Civil Engineering)
- Supervision: Nicholas Molyneaux, Riccardo Scarinci, Michel Bierlaire
- External expert: TBD

2017

Simulator for fleet of autonomous vehicles, Demotz Vincent (Computer science)
- Supervision: Riccardo Scarinci, Yuki Oyama, Michel Bierlaire
- External expert: Bastien Rojanawisut
Demand based rolling stock allocation, Salma Deruiche (Civil Engineering)
- Supervision: Virginie Lurkin, Stefan Binder, Michel Bierlaire
- External expert: Simon Landureau
Dynamiques de la grande mobilité, Alexis Gumy (Civil Engineering)
- Supervision: Matthieu de Lapparent, Michel Bierlaire
- External expert: V. Kaufmann, E. Ravalet, Sebastien Munafo
Concurrence sur les marchés automobiles européens: une approche par la modélisation de la demande, Christophe Paillard (Mathematics)
- Supervision: Matthieu de Lapparent, Michel Bierlaire
- External expert: Antonin Danalet
Modeling Heterogeneity of Drivers Route Choice Behavior in Quebec, Mathieu Plourde (Civil Engineering)
- Supervision: Evanthia Kazagli, Matthieu de Lapparent, Michel Bierlaire
- External expert: Charisma Choudhury
Integrating Bicycle Travel Demand to a Land-Use and Transport Model, Marc-Edouard Schultheiss (Civil Engineering)
- Supervision: Matthieu de Lapparent, Marija Nikolic, Michel Bierlaire
- External expert: Christopher Zegras
Passenger's Connection Time Preferences in Airline Itinerary Choice, Elisabeth Zbinden (Civil Engineering)
- Supervision: Virginie Lurkin, Matthieu de Lapparent, Michel Bierlaire
- External expert: Laurie Garrow

2016-2017

Information system for passenger discretionary activities in transport terminals, Federico Orsini (None)
- Supervision: Riccardo Scarinci, Marija Nikolic, Michel Bierlaire
- External expert: Riccardo Rossi

2016

Analysis, tuning, hybridization and design of experiments for an adaptive large neighborhood search (ALNS) heuristic for a complex inventory routing problem, Raphaël Lüthi (None)
- Supervision: Iliya Markov, Yousef Maknoon, Michel Bierlaire
- External expert:
Discrete choice model for the automobile market: modeling willingness-to-pay for marginal and non marginal changes in car attributes, Anna-Katharina Clodong (Civil Engineering)
- Supervision: Matthieu de Lapparent, Anna Fernandez Antolin, Michel Bierlaire
- External expert:

2015-2016

Disaggregate modeling of vehicle-miles traveled: what about users of alternative-fuel vehicles?, Takao Dantsuji (Civil Engineering)
- Supervision: Matthieu de Lapparent, Anna Fernandez Antolin, Michel Bierlaire
- External expert:
Decision making for human resource training and allocation, Guillaume Lopez (Civil Engineering)
- Supervision: Yousef Maknoon, Shadi Sharif Azadeh, Michel Bierlaire
- External expert:
Robust Design of a Single Line Electrical Bus, Ulrich Wehres (Civil Engineering)
- Supervision: Shadi Sharif Azadeh, Yousef Maknoon, Michel Bierlaire
- External expert:
Towards Solar Decathlon: evaluation of different mobility scenarios, Frédéric Rast (Environmental Sciences and Engineering)
- Supervision: Riccardo Scarinci, Michel Bierlaire
- External expert: Philippe Couty

2015

Modeling consideration and willingness-to-pay for electric and plug-in hybrid electric vehicles in car renewal, Baillif Maurin (Civil Engineering)
- Supervision: Matthieu de Lapparent, Anna Fernandez Antolin, Michel Bierlaire
- External expert: Yves Delacrétaz
Exploiting pedestrian WiFi traces for destination choice modeling, Loïc Tinguely (Civil Engineering)
- Supervision: Antonin Danalet, Matthieu de Lapparent, Michel Bierlaire
- External expert: Andres Sevtsuk

2014-2015

Optimization of arrivals and departure ow management at congested airports, Guilhem Pujol (None)
- Supervision: Shadi Sharif Azadeh, Michel Bierlaire, Tomás Robenek
- External expert:
Optimisation of the network design of a futuristic transport system based on accelerated moving walkways, Bastien Rojanawisut (Mathematics)
- Supervision: Riccardo Scarinci, Iliya Markov, Michel Bierlaire
- External expert: Sacha Varone

2014

Development And Implementation Of A Decision Making Tool In Quality Control Networks Using Quantitative System Modeling Techniques, Pierre de Pommerol (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Prof. Nicolas Zufferey
Development of a urban distribution model and a strategic decision making tool for Singapore’s freight transport planning, Alexis Dubil (Civil Engineering)
- Supervision: Michel Bierlaire, Jianghang Chen
- External expert: Der Horng Lee
Exploring approaches to model financial decisions, Billal Mahoubi (Civil Engineering)
- Supervision: Amanda Stathopoulos, Michel Bierlaire
- External expert:
TBD, Ilias Nafai (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Ulrich Weidmann
Optimisation des tournées de ramassage des employés de l'aéroport de Genève, Isabel Tovar (Civil Engineering)
- Supervision: Tomás Robenek, Stefan Binder, Michel Bierlaire
- External expert: Philippe Quaglia, Aéroport international de Genève
TBD, Maëlle Zimmerman (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Emma Frejinger

2013

How perceptions affect the modal choice? A cross country comparison from a gender oriented point of view, Silvia Francesca Varotto (None)
- Supervision: Michel Bierlaire, Amanda Stathopoulos, Aurélie Glerum
- External expert:

2012-2013

Associations among Household Charasteristics, Vehicle Characteristics and Emission Failures: An Application of Targeted Marketing Data, Stefan Binder (Environmental Sciences and Engineering)
- Supervision: Michel Bierlaire
- External expert: Laurie Garrow, GeorgiaTech
Optimization of an electric bus network, Frédéric Pythoud (Mathematics)
- Supervision: Bilge Atasoy, Tomás Robenek, Michel Bierlaire
- External expert: Olivier Augé, ABB

2012

MEETAWAY: Connecting People Optimally, François Anken (Mathematics)
- Supervision: Prem Kumar, Bilge Atasoy, Michel Bierlaire
- External expert: Pedro Faustino
A two-stage sequential linear programming approach to optimize security staff at Geneva Airport, Mahmoud Kharouf (Civil Engineering)
- Supervision: Michel Bierlaire, Nitish Umang, Prem Kumar
- External expert: Vincent-Ruben Jimenez
Mode choice models for the city of Nice using psychometric indicators and latent variables, My Hang Nguyen (Civil Engineering)
- Supervision: Michel Bierlaire, Ricardo Hurtubia, Aurélie Glerum
- External expert: Valérie Attas, Veolia
Activity space and social network, Jeanne Ythier (Environmental Sciences and Engineering)
- Supervision: Michel Bierlaire
- External expert: Prof. Joan Walker
Integrated berth allocation and yard assignment in bulk ports using column generation, Tomas Robenek (None)
- Supervision: Michel Bierlaire, Nitish Umang
- External expert:

2011-2012

Pedestrian flow simulation and optimization in transportation hubs (case study), Sohrab Sahaleh (Civil Engineering)
- Supervision: Michel Bierlaire, Bilal Farooq, Antonin Danalet
- External expert: Prof. Winnie Daamen
Hybrid choice models: an application to automobile demand, Lidija Stankovikj (Mathematics)
- Supervision: Michel Bierlaire, Aurélie Glerum
- External expert:

2011

Mobility in the Middle East, Laurene Aigrain (Civil Engineering)
- Supervision: Michel Bierlaire, Jingmin Chen
- External expert: Prof. John Polak
The urban development effects of a metro line extension : western arm of the Orange Line from Montreal to Laval, Aurélien Odobert (Civil Engineering)
- Supervision: Michel Bierlaire, Ricardo Hurtubia
- External expert: Prof. Zachary Patterson

2010-2011

The modeling of the investors behavior, Sabine Luisier (Mathematics)
- Supervision: Michel Bierlaire, Thomas Robin, Michaël Thémans
- External expert: Dr. Frank Crittin, LODH

2010

Sampling of alternatives for logit mixture models, Ines Azaiez (Mathematics)
- Supervision: Michel Bierlaire, Aurélie Glerum
- External expert: Prof. Ben-Akiva, MIT
Analyse des relations entre la forme urbaine, l'accessibilité aux transports en commun et la mobilité quotidienne des habitants de la ville de Québec, Canada, Laetitia Bettex (Civil Engineering)
- Supervision: Michel Bierlaire, Ricardo Hurtubia
- External expert: Luis Miranda-Moreno, McGill University, Canada
Blind Booking Purchase Patterns: discrete choice analysis, Alexandre Khelifa (Civil Engineering)
- Supervision: Michel Bierlaire, Bilge Atasoy, Prem Kumar
- External expert: Prof. Laurie Garrow, Georgia Tech.
Balancing Energy Consumption and Location Precision in Continuous Location Tracking, Julien Eberle (Computer science)
- Supervision: Michel Bierlaire, Jingmin Chen
- External expert: Gian Paolo Perrucci
Modeling for Strategic Robustness, Peter G. Swartz (Civil Engineering)
- Supervision: Michel Bierlaire, Prem Kumar
- External expert: Prof. Christopher Zegras, MIT

2009-2010

Application of Markov Decision Processes to pipeline data, Aurélie Glérum (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Gianluca Antonini
Combining heterogeneous sensor information for the activity tracking of smart phone users, Willem Himpe (None)
- Supervision: Michel Bierlaire, Gunnar Flötteröd, Ricardo Hurtubia
- External expert: Prof. Ben Immers, Dr. Chris Tampere

2009

An Empirical Investigation of the Determinants of Attention to Attributes in Choice Experiments, Antonin Danalet (Mathematics)
- Supervision: Michel Bierlaire, Michaël Thémans, Thomas Robin
- External expert: Prof. Ricardo Scarpa
Comparative Study of CLIP-AIR's Multimodal Performance, Alexandre de Tenorio (Communication Systems)
- Supervision: Michel Bierlaire, Matteo Salani, Claudio Leonardi
- External expert: François Bouteiller, Baboo
Experiences des moyens de transport et choix modal, Medhi-Seyed Tavakoli (Civil Engineering)
- Supervision: Michel Bierlaire, Thomas Robin
- External expert: Dr Christophe Jemelin
Simulation and optimization in container terminals, Atoosa Kasirzadeh (None)
- Supervision: Michel Bierlaire, Matteo Salani, Ilaria Vacca
- External expert: -

2008-2009

Implementation of attribute strategies in advanced discrete choice models, Carol Kirchhofer (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Dr. John Rose
Extending the framework for MEV discrete choice models, Lorenza Santini (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Mogens Fosgerau

2008

Measures of congestion in container terminals, Arnaud Vandaele (None)
- Supervision: Michel Bierlaire, Matteo Salani, Ilaria Vacca
- External expert:
Dynamic Traffic Assignment in Lausanne, Marine Vidaud (Civil Engineering)
- Supervision: Michel Bierlaire
- External expert: Michaël Mahut

2007-2008

Gestion optimale de l'espace dans un système d'entreposage et distribution, Nicolas Anken (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Angel Ruiz, Université Laval, Québec
Optimization of road traffic counts location, Fanny Gillieron (Mathematics)
- Supervision: Michel Bierlaire
- External expert: Prof. Jaime Bacerlo, UPC, Barcelona, Spain

2006-2007

Modélisation de Bruxelles avec UrbanSIM, Lefteris Samartzis (Mathematics)
- Supervision: Michel Bierlaire, Zachary Patterson
- External expert: Sylvie Gayda, STRATEC
Validation d'un modèle de mouvement de piétons, Sabina Schneider (Mathematics)
- Supervision: Michel Bierlaire, Thomas Robin
- External expert: Gianluca Antonin, IBM Research Zürich
Customer Centric Revenue Management, Marjorie Benz (Mathematics)
- Supervision: Michel Bierlaire, Carolina Osorio Pizano
- External expert: Daniel Rueda, OpenPricer
Field experiment on the willingness of the umployed to accept a job, with a mixed logit estimation, Flaminio Cadlini (None)
- Supervision: Michel Bierlaire
- External expert: Prof. Rico Maggi, USI

2006

Développement d'une étude de cas pour l'analyse des comportements par modèles de choix discrets, Gianni Farini (Mathematics)
- Supervision: Michel Bierlaire, Michaël Thémans
- External expert: Teghem J., Polytech. Mons, Belgique

2005-2006

Degenerate nonlinear constrained programming, Lionel Dumartheray (Mathematics)
- Supervision: Michel Bierlaire, Michaël Thémans
- External expert: Prof. Th. Liebling (EPFL - IMA - ROSO)

2004-2005

Utilisation des modèles d'utilité pour évaluer la valeur du temps, Frédéric Mivelaz (Mathematics)
- Supervision: Michel Bierlaire, Michaël Thémans
- External expert: Rico Maggi, Uni. Lugano

Semester projects [161]

2024

A computational comparison of open-source branch-and-price solvers, Jules Schneuwly

Supervision: Léa Ricard, Fabian Torres, Michel Bierlaire
Column generation algorithms are relevant for addressing problems featuring a large number of decision variables (i.e., columns), commonly encountered in transportation and logistics problems such as vehicle routing and scheduling of staff or resources. When these optimization problems involve integrality constraints, column generation algorithms can be integrated into a branch-and-bound tree. This solution method is also referred to as branch-and-price. Historically, such algorithms have been predominantly developed within closed-source solvers, which raises issues regarding the comparability and reproducibility of computational experiments. Recently, the academic community has introduced open-source branch-and-price solvers to address these concerns. This project aims to compare two such open-source solvers in terms of computational time and flexibility across various families of mixed-integer problems (MIPs). The selected open-source solvers are:

Construction of an Itinerary Optimization Algorithm for a Trip Planning App, Gabriel André Veigas Marques

Supervision: Fabian Torres, Tom Haering, Michel Bierlaire
The proliferation of mobile and web applications for travel planning necessitates advanced optimization algorithms to efficiently organize itineraries. This semester project aims to develop an innovative itinerary optimization algorithm for a trip planning application, addressing the Generalized Price-Collecting Traveling Salesman Problem with Resource Constraints. The algorithm's primary objective is to automate the organization of travel elements (hotels, restaurants, and activities) into a coherent daily schedule, optimizing for travel time, cost, and user preferences. The project begins by leveraging a recommendation algorithm that selects a set of events based on user input, consisting of activities, dining options, and accommodations. These events are organized into an extended set, allowing for greater flexibility and optimization potential. The core of the project involves the construction of an optimization algorithm that integrates travel time computations between events, using Google Maps API, and optimizes the sequence of events to minimize overall travel time, while considering the rank and cost of each event. Initial objectives include the implementation of travel time calculations and the development of a basic itinerary optimization model. Subsequent phases will expand the event set and refine the optimization model to balance travel time, event desirability, and cost, ultimately producing an itinerary that offers the best possible experience for the user.

Comparison of different methodologies for interpolating traffic count data, Mya Jamal Lahjouji (Civil Engineering)

Supervision: Marija Kukic, Nicholas Molyneaux, Michel Bierlaire
In this project, our objective is to evaluate various methodologies for interpolating gaps in traffic count data, assessing their effectiveness in relation to computational and data requirements. We focus on the case study of Switzerland using the data provided by Canton Vaud. This data has been collected from different locations over several years using different data collection procedures which resulted in having unbalanced data with different missing information and inconsistencies. In order to construct a realistic network, we want to investigate the different methodologies to fill these missing information and compare it with the existing solution provided by Canton.

Comparative analysis of discrete choice models estimation using different software packages, Alexia Stephanie Liviana Paratte

Supervision: Evangelos Paschalidis, Negar Rezvany, Michel Bierlaire
Since their establishment in the field of econometrics, discrete choice models have been extensively used in many research fields such as transportation, environmental economics, health, energy, marketing, and others. Currently, there is a plethora of commercial and open-source software that can be used for the estimation of discrete choice models. Biogeme (Bierlaire, 2003) and Apollo (Hess & Palma, 2019) are two of the most appealing alternatives, as they are both open-source (based on Python and R respectively) and cover a broad range of advanced discrete choice models and diagnostics. More recently, other alternatives have been developed such as mixl (Molloy et al., 2021) and MO|DE.behave (Reul et al., 2023). Given the differences in the code development and the tools used, this project aims at investigating (a) differences in performance and computational speed between the two packages, (b) potential differences in the results and model statistics for the same models and datasets, and (c) available functionalities i.e., what are the common features and what are the specific features of some packages that are not available in others. Understanding the pros and cons of each package via this comparative analysis can ultimately lead to more optimised and accurate software for estimating discrete choice models.

Improving the specification of migration aspiration discrete choice models via attitudinal variables, Anne-Valérie Preto (Civil Engineering)

Supervision: Evangelos Paschalidis, Nicola Ortelli, Michel Bierlaire
International migration is a crucial but controversial topic that raises issues and concerns to be resolved in the parties involved. In industrialised nations, the proportion of immigrants in total population increased between 1960 and 2019, raising fears about economic costs for natives, loss of national identity, and integra- tion issues. In poor countries, international migration raises concerns regarding brain drain of highly-skilled people, as college and university graduates have a higher tendency to emigrate than the less educated (Beine et al., 2021). The accurate understanding and prediction of migration motifs are crucial from a policy- making perspective, to measure for instance the immigration pressure a country faces. Improved models can help to predict and adjust migration flows but also to identify and mitigate adverse effects on all parties involved. The objective of this project is to extend advanced discrete choice model specifications that address issues such as the independence from irrelevant alternatives (IIA). For instance, Beine et al. (2021) implemented a cross-nested logit (CNL) model to approximate the substitution patterns in migration aspirations of Indian individuals more accurately. The specification of such models could be improved by incorporating addi- tional variables related to risk aversion of the individuals, perceived security of their environment, perceived degradation of the climatic conditions or perceived governance in their country could influence aspiration. To address issues related to measurement errors, these variables will be incorporated in the form of latent variables which have been extensively used in the past in the field of discrete choice models. Ultimately, the objective of this project is to extend the use of latent variables in the context of migration aspiration models and examine whether the insights of previous models (such as the CNL), for instance in terms of substitution, hold when improving this specification.

2023-2024

Generating a synthetic population with health and COVID-19 information, Aline Janvier

Supervision: Cloe Cortes Balcells, Marija Kukic, Michel Bierlaire

Modeling Individual Activity Schedules and Behavior Changes in COVID-19 Using Metaheuristic Optimization, Pierre Alexis Hellich

Supervision: Cloe Cortes Balcells, Fabian Torres, Michel Bierlaire
The primary objective of this project is to develop an innovative approach that addresses these limitations by using a metaheuristic optimization technique already developed by TRANSP-OR lab, to generate personalized activity schedules for individuals. We will use synthetic population data including information about individuals� characteristics and a comprehensive activity network with coordinates for each facility. The proposed methodology aims to create schedules that 1 optimize a given utility function for every individual. This utility function will consider individual preferences, activity durations, and the impact of COVID-19 restrictions on activity choices. The expected outcomes of this project include a novel framework that provides insights into how individuals modify their behavior and activity plans during periods of COVID-19 restrictions. By integrating a comprehensive network and allowing individuals to select activities from outside their desired schedules, the proposed model will contribute to more accurate and comprehensive epidemiological models. The output of this model will be used as an input for the Interdisciplinary Behavioral Model (IBM) developed by the TRANSP-OR lab. This model integrates individual behavior into both epidemiological and mobility models by combining interdisciplinary research. It integrates epidemiology, mobility, and behavioral modeling, to create a comprehensive model that considers individual-specific behavior in the context of testing, infection levels, and daily activities. Policymakers can leverage these models to make informed decisions regarding the implementation of restrictions and the development of effective risk mitigation strategies.

Investigating latent behaviour in multiday activity scheduling, Honoka Shirai

Supervision: Janody Pougala, Negar Rezvany, Michel Bierlaire
In practice, most operational activity-based models have focused on single-day analyses. This common simplifying assumption significantly limits the models' behavioural realism, as they cannot adequately capture the dynamics and processes involved in the scheduling of activities over multiple days. Decisions taken daily are affected by both habits built over time and forward-looking behaviour, where individuals decide based on the expected outcomes of future decisions. A person's activity/travel planning behaviour depends on their behaviour on other days of the week and that there are two main components to this dynamic behaviour: 1. same-day and next-day substitution effects for activities and trips, and 2. latent propensity to engage in some activities or choose a specificc transportation mode. In this semester project, we investigate the existence of these components and how to integrate them into a multiday activity scheduler (OASIS). More specifically, we will attempt to model these unobserved influences in the context of a latent choice model.

2023

A detailed evaluation of the Via Sicura program, Mya Jamal Lahjouji (Civil Engineering)

Supervision: Nicola Ortelli, Selin Atac, Michel Bierlaire
This project aims at updating and improving the official evaluation of the Via Sicura road safety program.

Targeting population to evaluate COVID-19 strategies based on activity-travel behavior., Antoine Goupil De Bouillé

Supervision: Cloe Cortes Balcells, Tom Haering, Michel Bierlaire
Countries everywhere in the world have been adopting different policies to lower the toll of the SARS-CoV-2 pandemic. Epidemiological and behavioral models have been widely used to guide decision-making. In this project, we aim at designing a methodology to optimize targeted COVID-19 policies. We will use a simulator provided by the TRANSP-OR lab. This simulator draws the probability of an agent getting infected given its socio-economic characteristics. We hope that this approach will provide insight on transmission and intervention that will complete what can be obtained with usual compartmental models (SIR). We will use health data (Sentinella or SARS-CoV-2) from FOPH. We will review different strategies to determine the trade-off between pharmaceutical interventions (vaccination) and non-pharmaceutical interventions. We will design these policies by accounting for socioeconomic variables of the population, such as age, gender, home address, and general health evaluation, and determine the optimal strategies according to different criteria.

Predicting activity schedules of the population considering non-pharmaceutical interventions, Arthur Nussbaumer

Supervision: Cloe Cortes Balcells, Evangelos Paschalidis, Michel Bierlaire
COVID-19 creates an undeniable bridge between the epidemiological and the transportation community. Due to the lack of a vaccine in the first stage of the pandemic, controlling mobility becomes the key to containing the spreading of the virus. Understanding how and why people perform their daily activities provides crucial information to define more targeted and less disruptive interventions. However, the link between mobility and the spreading of an infectious disease is double-edged: how people move drives the spreading of the virus, and the presence of the virus has clear repercussions on people scheduling their activities. These reschedulings can be due to a self-choice (I no longer go to the gym because I am scared), or because an external imposes it (the government closes the gyms). In this project, we will focus on the latter since we do not own data to calibrate the parameters of self-choice reschedulings. The aim is to predict the activity schedules of the population considering restrictions derived from COVID-19 presence. We will use an agent-based model provided by the TRANSP-OR lab (OASIS) which integrates the different daily scheduling choice dimensions (activity participation, location, schedule, duration, and transportation mode) into a single optimization problem. We hope this approach will provide insight into how the presence of infectious diseases impacts activity-travel behavior and reflect on potential policy implications/interventions.

Optimisation et Déploiement d’une méthode de calculation au sein d’un groupe actif dans le second œuvre, Thomas Poulain

Supervision: Michel Bierlaire

2022-2023

Scenario generation for the multi-agent transport simulation toolkit, MATSim, Anne-Valerie Preto (Civil Engineering)

Supervision: Selin Atac, Nicola Ortelli, Michel Bierlaire
CSSs are becoming increasingly popular, primarily due to their financial and environmental advantages. However, they face many operational challenges, including inventory management of vehicles and parking spots, vehicle load balancing and redistribution, pricing strategies, and demand forecasting. If these challenges are not addressed properly, the CSS risks experiencing a significant loss of customers and therefore revenue. The literature consists of variety of works on CSSs especially focused on the rebalancing operations. On the other hand, it lacks the detailed comparison of different strategies of rebalancing operations at a disaggregate level. One approach to fill this gap is using an agent-based transport simulation. Such simulation toolkits allow analysis at the individual level and testing different configurations such as city and network structure. Therefore, in this study the student will review the literature to determine the main characteristics of the CSSs. In the first part of the project, she will work on creating representative scenarios for the multi-agent transport simulation toolkit, MATSim, based on the findings in the literature. These scenarios will be used to compare different rebalancing operations strategies where an optimization module is used. The second part of the project will be implementing analysis scripts that will provide useful information on the simulation results.

Comparison of machine learning techniques for synthetic activity generation, Xinling Li (Civil Engineering)

Supervision: Marija Kukic, Nicola Ortelli, Michel Bierlaire
This project aims to investigate the good and the bad sides of state-of-the-art Machine Learning techniques applied in the context of synthetic population generation, focusing on the generation of attributes that de- scribe synthetic activities. Recently, there has been an increase in research focus on the application of deep generative learning algorithms for generating synthetic populations and travel behaviour modelling, including Variational Auto-Encoders (VAEs) and Generative Adversarial Networks (GANs) (Borysov et al., 2019, Wong and Farooq, 2020). Whilst initial experiments show promising results, there are still significant drawbacks with using generative modelling on population synthesis, which includes vanishing gradients, training instability or mode collapse, nor it allows for exact evaluation of the probability density of new points. Based on the literature review, we try to propose possible improvements for existing methodologies by identifying if there is a way to capture better the correlations between variables. One of the techniques that could be improved is Generative Adversarial Networks (GANs). For instance, DATGAN (Lederrey et al., 2022) is a GAN architecture that tries to give more control to the modellers when generating synthetic tabular data. It uses a Directed Acyclic Graph (DAG) to represent the correlation between variables in the dataset. This DAG is then used to define the structure of the Generator. Each variable is represented by an LSTM cell. However, due to the linear nature of LSTM cells, it is required to have a DAG instead of an acyclic graph. This directionality can be an issue when designing the DAG since it represents causality between variables. Thus, we could improve the DATGAN by removing the directionality and only specifying correlations between variables. Graph Neural Networks (GNNs) are a specific type of NN designed to mimic any type of graph, and they can be used to design the architecture for the Generator. This change would give more freedom to the user and make the method more flexible since DATGAN would not require any specific type of graph

Synthetic generation of activity motifs, Bochud Quentin Philippe (Civil Engineering)

Supervision: Marija Kukic, Janody Pougala, Michel Bierlaire
This project aims to work on the extension of the existing simulation framework (Kukic et al., 2021). In the existing methodology, we developed a new approach so-called Divide and Conquer Gibbs Sampler, for the generation of synthetic households. The current version of the framework can generate socio-demographic attributes of individuals (such as gender and age) grouped into households (described by their own set of features) in a realistic and representative way. However, in ABMs, there is a need to generate activities, not only socio-demographic characteristics. Some of the features that describe activities are type, location, start time, etc. However, as shown in the past, the simulation methods struggle to deliver accurate results in a reasonable time while dealing with high-dimensional datasets. According to that, instead of gener- ating disaggregated data on individuals� activities, it would be better to generate aggregated data while preserving the same amount of information. To do so, we will generate synthetic activity motifs. The daily activity motifs are representative graphs where the nodes describe the activity type and location, and the links indicate the sequential order between activities. The advantage of generating activity motifs instead of disaggregated activities is that we can reveal daily mobility patterns while saving computational time and preserving privacy. The first step is to retrieve and replicate the real activity motifs at the level of individu- als. The additional step would be to investigate how to generate the activity motifs of households depending on activities that individuals performed, subject to household constraints (e.g. sharing of resources). Note that the work of pre-study should be focused on the generation of activities that describe the movements of individuals. The investigation of activity motifs at the level of households can be part of the master thesis.

Modelling migration intentions worldwide, Hilda Abigél Horváth (Mathematics)

Supervision: Silvia Varotto, Nicola Ortelli, Michel Bierlaire
Migration across different countries is a major topic of policy debates worldwide that receives relatively little attention in the travel behaviour literature. In industrialized countries, the proportion of immigrants in the total population has increased in recent years resulting in concerns about integration, loss of national identity and economic expenses. In low-opportunity countries, international migration raises fears of loss of highly skilled workers, who are the group most likely to emigrate. Therefore, understanding the main factors that influence the location where migrants choose to settle is of primary interest for both researchers and policy makers. Location choices might be influenced by changes in the attractiveness of the country of origin, of the country of desstination, and of the alternative destinations. A recent study developed a cross-nested logit model to predict migration intentions in India based on characteristics of the individual, characteristics of the destination country and unobserved factors shared between similar destinations. However, there is still a dearth in understanding the main factors influencing migration intentions at a global scale, in countries that differ in terms of size, level of development and willingness to emigrate. The objective of this study is to assess the transferability of the previous model predicting migration intentions in India to other countries in the world. The study will identify the main characteristics of the countries of origin that have an impact on the migration intentions. The data were extracted from the Gallup World Poll (GWP) Survey. The GWP measures a series of key indicators including migration intentions and is one of the most comprehensive datasets available worldwide. Other key indicators measured in the survey are national security, nutrition, housing, job opportunities, financial situation, personal health, civil engagement and overall well-being. The GWP surveys cover more than 150 countries in the world, are usually repeated every year, and include 1000 individuals in each country. In this study, the GWP data will be analysed to select relevant countries based on the coverage, the number of waves available, the respondents per wave, and the variables available. The analysis will identify patterns per country and evolution of migration intentions over time. Mathematical methods will be implemented to understand which variables should be included to improve the model specification and to capture the perceptions of respondents about the living conditions in their country. These methods will be also used to explore the complex correlation patterns between the attributes and the destination choices.

A model to capture ride-sharing behavior within the agents in a household, Mya Jamal Lahjouji (Civil Engineering)

Supervision: Negar Rezvany, Janody Pougala, Michel Bierlaire
Individuals do not schedule their day in isolation from other members of the household. There is interpersonal dependencies and intra-household interactions within household members which affect their daily schedules and travel patterns. Household car ownership, car availability limitation, joint activity participation, joint trips to joint activities, sharing of common household vehicles, and coordination of household daily rhythms are examples of these interpersonal dependencies. These interdependencies might have multiple reasons and can take multiple forms. Therefore, activity-based and travel demand models should incorporate and represent heterogeneous intra-household interactions in order to reflect reality. Focusing on joint rides, we can classify joint household tours into 3 categories: fully joint tours for shared activities, escorting tours, and synchronised activity tours. In this project, we focus on the third category; synchronised activity tours such as ride-sharing within household members. In this semester project, we will study the ride-sharing behavior within the members of a household. To this aim, we first do a literature review to see how the current studies tackle this matter and to identify the influential variables on the choice of ride-sharing or solo ride. We then develop a model to capture the choice of solo travel or shared ride with other agent(s) of the household considering various variables such as socio-economic characteristics of individuals and households, and activities attributes. We aim to study the ride-sharing behavior within the members of a household and capture the influential variables on the joint tours within a household. Finally, the student is expected to analyze and discuss the model results.

2022

Optimisation et Déploiement d’une méthode de calculation au sein d’un groupe actif dans le second œuvre, Bastien Sauve (Civil Engineering)

Supervision: Michel Bierlaire

Heuristic applications for rebalancing operations in one-way car sharing systems, Miguel Chastre Rodrigues[Internship]

Supervision: Selin Atac, Michel Bierlaire
CSSs are becoming increasingly popular, primarily due to their financial and environmental advantages. However, they face many operational challenges, including inventory management of vehicles and parking spots, vehicle load balancing and redistribution, pricing strategies, and demand forecasting. If these challenges are not addressed properly, the CSS risks experiencing a significant loss of customers and therefore revenue. The literature consists of variety of works on CSSs especially focused on the rebalancing operations. On the other hand, it lacks the detailed comparison of different strategies of rebalancing operations at a disaggregate level. One approach to fill this gap is using an agent-based transport simulation. Such simulation toolkits allow analysis at the individual level and testing different configurations such as city and network structure. Therefore, in this study the student will review the literature to determine two rebalancing strategies existing in CSSs. The student will then focus on developing heuristic algorithms to solve these problems as they are computationally expensive to solve with exact methods.

Divide and conquer one-step simulator for synthetic household generation, Xinling Li (Civil Engineering)[Internship]

Supervision: Marija Kukic, Michel Bierlaire
Transportation science today is tasked with predicting the complex mobility needs of individuals, which necessitates the use of advanced mobility and travel demand models. However, the quality of the model outputs depends on the data quality. In transport, data privacy and data availability are two limitations. Therefore, transportation scientists rely increasingly on the usage of synthetic populations. Typically, a synthetic population is generated either on the level of individuals or on the level of households using simulation or machine learning approaches. This project aims to solve the problems of existing simulation techniques for the generation of synthetic households, addressing several literature gaps. In existing methodologies, the generation of individuals and their matching into households is done separately, through two sequential processes. Although the marginal distributions of key generated attributes might show a perfect fit, the �two-step� household generator produces unrealistic households. The generation of illogical observations is caused by neglecting the dependencies between individuals while grouping them into households. In order to create realistic households, this paper suggests a �single-step� household simulator where relationships between individuals are considered simultaneously within the generation process by imposing various statistical constraints. However, as shown in the past, the simulation methods struggle to deliver accurate results in a reasonable time while dealing with high-dimensional datasets. This project changes the traditional Gibbs Sampler into so-called �Divide and Conquer Gibbs Sampler� that solves this problem by decomposing and parallelizing the generation process based on the level of correlation. The expectation of this approach is that it will increase accuracy and efficiency, as highly correlated areas are isolated, enabling a better representation of less probable values. This project aims to work on the extension of the aforementioned existing framework. The extension will contain several steps where we will have to add more attributes that will be generated, which includes modeling of all necessary relationships. The addition of more variables will cause the curse of dimensionality phenomena. To overcome this issue, we will work on improving the divisive Gibbs Sampler in the context of synthetic household generation. We will compare it with the traditional approach by investigating the cost of adding more attributes regarding computational efficiency. Moreover, we will focus on proving the advantages of a one-step simulator compared to a two-step simulator in terms of the realism of generated observations. The methodology will be tested using 2015 Swiss census data.

Modeling congestion in a competitive Facility Location Problem, Louise Lallemand[Internship]

Supervision: Tom Haering, Michel Bierlaire
Assigning the right Emergency Room (ER) to persons in medical need is a pivotal mission of the Emergency Medical Dispatcher (EMD). In order to minimize the delay between the call and the medical care, EMD need to take into account the travel time and the waiting time at the an ER. The goal of opening an ER is to maximize the demand capture, either to make profit or to relieve other ERs. To achieve this, it is possible to locate the facilities and assign them capacity of service: number of beds or staff members. In this report, a non-linear integer programming formulation is established to model this type of allocation. The formulation is agent-based to encompass individual disparities through discrete choice modelling (DCM).

Comparing rebalancing operations in car sharing systems, Xinling Li (Civil Engineering)

Supervision: Selin Atac, Nicola Ortelli, Michel Bierlaire
A car sharing system (CSS) offers users to rent cars for a short period of time. The users are identified by an RFID card or through a mobile application. The price of the trip is generally determined according to trip duration and length. One of the challenges faced in such systems is the imbalance of the vehicles throughout the city. This problem is solved by forecasting the demand and rebalancing the vehicles to meet user demand. First, the student is going to review the literature related to rebalancing operations in CSSs. Then, she will design and/or implement different rebalancing strategies in order to test the effects of different characteristics of the city/region. In other words, different strategies (static, reactive, and proactive) for rebalancing operations will be tested for each scenario and the results will be used to drive to conclusions which explain the relation between the city structure, demand structure and the different strategies of rebalancing operations.

A comparitive analysis of optimization algorithms for activity-based applications, Luca Bataillard (Computer science)

Supervision: Tom Haering, Janody Pougala, Michel Bierlaire
The starting point of this semester project is a Mixed Integer Linear Programming (MILP) optimization framework (Pougala et al, 2021), which simulates the scheduling of activities by considering that individuals try to optimize the utility (or satisfaction) they can gain from a given activity plan. Under a time budget constraint (e.g., 24h), the framework allows to integrate every spatio-temporal dimension of the activity-based paradigm (choice of activity participation, timing decisions, destination, mode, route...) simultaneously. The trade-offs occurring in the decision process are therefore captured explicitly. While the framework is functional, the MILP formulation proves to be limited when it comes to make it operational. Specifically, the dimension of the constraint space and the combinatorial nature of the problem significantly increases the computational time, often too high for practical use.The focus of the project is therefore on investigating a constraint programming approach, and its strengths and limitations compared to the MILP formulation. Constraint programming is a widely used optimization methodology, especially for scheduling applications, as the combinatorial nature of such problems suits the general framework of global constraints, domain filtering and constraint-propagation well. The main objective is to perform a comparative analysis of both optimization approaches on the given activity-based problems on selected case studies.

A discrete choice model to capture the relationship between activity type-location-modality choice of individuals, Jingran Su (Civil Engineering)

Supervision: Negar Rezvany, Janody Pougala, Michel Bierlaire
With the COVID-19 pandemic, the lifestyle and behavior of people have changed dramatically. Activities which were traditionally done out-of-home (such as work and education), are now more likely to take place in-home and remote working and studying has become an integral part of our lives. Capturing the relationship between activity type (work, study, sleep, shopping, personal care, household care, Leisure), activity location (in-home, out-of-home), and activity modality (virtual, physical) can be used to assess the tradeoff between in-home and out-of-home activities. In this semester project, we will study how the pandemic has impacted the location and activity mode choice (virtual, physical) of individuals. To this aim, we first do an analysis on the 2016-2020 UK Time Use Survey (TUS) data which encompass both pre- and during the Covid-19 pandemic daily diary data. The data analysis aims to determine the average activity duration and frequency of activity episodes per day by activity type, location, and device use. We will then develop discrete choice models to simulate the activity location (in-home, out-of-home) and modality (virtual, physical) for different activity categories (work, study, personal care, household care, shopping, leisure, sleep, organizational work). We aim to capture the preferences for virtual/physical activity participation of different activity types at specific locations. Finally, the student is expected to analyze and discuss the model results.

Road sections clustering, Salim Benchelabi (Mathematics)

Supervision: Nour Dougui, Marija Kukic, Michel Bierlaire
Pavement maintenance is one of the major issues of public agencies. Inefficient maintenance strategies lead to high economic expenses in the long term. Public agencies rely on pavement management system (PMS) to recommend pavement rehabilitation and maintenance. The first step of a PMS is to create homogeneous worksites of reasonable sizes (considered practical and economically relevant). This is performed by grouping road sections based on conditions data and degradation laws over time for the network. In practice, the grouping or clustering phase is done by a basic algorithm whose results then need to be manually checked and repaired. This makes the task tedious and time consuming. The goal of this project is in a first instance to implement a deterministic clustering algorithm that takes as input road sections information (position, type of surface, type of traffic, age...) together with a deterministic degradation law and regroups the sections in clusters using Machine Learning algorithms such as k-means. In a second instance, a probabilistic degradation law will be considered and a probabilistic clustering algorithm such as Expectation�Maximization will be implemented. Both algorithms will be tested on real world case study and the result will be compared to the results of an existing PMS clustering methodology.

Studying socio-economic variables through the different waves of SARS-CoV-2, Clément Dauvilliers

Supervision: Cloe Cortes Balcells, Silvia Varotto, Michel Bierlaire
The lockdown of March 2020 of several countries has changed the modern world as we know it. Back then, non-pharmaceutical interventions were put into place to mitigate the spreading of the COVID-19. Now, we count on the most effective pharmaceutical intervention, vaccination. In Switzerland, 65.9% of the population is fully vaccinated. At the time, we are dealing with the fifth wave of new cases. However, it is unclear whether the pandemic has a significant impact on the travel behaviour and whether adopting non-pharmaceutical interventions has an impact on daily activities. Therefore, it is important to take a disaggregate approach to analyze the impact of all these variables on the travel behavior of individuals using a disaggregate approach. The long-term goal is to provide insights that transportation planners and public health authorities can exploit to deal with epidemic situations. In this project, we will study the use of different ML algorithms to include the different significant variables that influence the force of infection (probability of going from being susceptible to infected) through the different waves. The main objective is to capture which socio-economic variables of the individuals and which municipality characteristics influence the force of infection and how the impact of these variables change trough the different waves. First, the student will review the existing literature related to epidemiological and activity-based models and get familiar with the tools already developed by the TRANSP-OR lab. Then, the student is expected to test different models through the different waves and check the impact of these variables on behaviour. To account for the contact matrices, we will use FOPH data together with MATSIM output of Switzerland. Finally, the student will calibrate the parameter inside the TRANSP-OR simulator.

2021-2022

Drawing infection probabilities based on socio-economic characteristics using ML Causal Inference, Hannah Gelblat

Supervision: Cloe Cortes Balcells, Rico Krueger, Michel Bierlaire
Countries everywhere in the world have been adopting different policies to lower the toll of the COVID-19 pandemic. Epidemiological and behavioural models have been widely used to guide decision-making. In this project, we will study the use of causal inference as a tool to determine which variables are significant and study their causal effect on the probability to become infected. We aim to compare these results with the more traditional approach. It will account for the uncertainty inherent to the nature of the problem to decide which variables are meaningful when modelling the infection with a virus. We hope this new model will provide insight on transmission and intervention that will complete what can be obtained with usual compartmental models (SIR). To do that, each student will implement different causal discovery methods based on graphical models. For example, a score-based method like the greedy equivalence search architecture, or a non-linear method Iike a method based on the linear, non-Gaussian model.

Drawing infection probabilities based on socio-economic characteristics using ML Causal Inference, Mathias Nuris

Supervision: Cloe Cortes Balcells, Rico Krueger, Michel Bierlaire
Countries everywhere in the world have been adopting different policies to lower the toll of the COVID-19 pandemic. Epidemiological and behavioural models have been widely used to guide decision-making. In this project, we will study the use of causal inference as a tool to determine which variables are significant and study their causal effect on the probability to become infected. We aim to compare these results with the more traditional approach. It will account for the uncertainty inherent to the nature of the problem to decide which variables are meaningful when modelling the infection with a virus. We hope this new model will provide insight on transmission and intervention that will complete what can be obtained with usual compartmental models (SIR). To do that, each student will implement different causal discovery methods based on graphical models. For example, a score-based method like the greedy equivalence search architecture, or a non-linear method Iike a method based on the linear, non-Gaussian model.

Adding an Epidemiological penalty in MATSim to study the impact of SARS-CoV-2 in mobility, Florent Zolliker (Mathematics)

Supervision: Cloe Cortes Balcells, Negar Rezvany, Michel Bierlaire
Countries everywhere in the world have been adopting different policies in order to lower the toll of the COVID-19 pandemic. Epidemiological and behavioural models have been widely used to guide decision making. In this project, we will study how the disease impacts the choice of activities. For that reason, we will modify the utility scoring function from the activity-based model to introduce the epidemiological penalty. We will add in the utility function, another term called Slevel of virus load to define the impact that an epidemic has on the choice of activities, including travel mode. To estimate the parameters of the model we are planning to use already-existing methodologies like maximum likelihood or Bayesian methods. First, the student will review the existing literature related to epidemiological and activity-based models and get familiar with MATSim software. Then, the student is expected to develop an environment in MATSim using data we will provide. Specifically, we will use the Sioux Falls scenario files which are public, together with google mobility data so that we can modify the base mobility according to the different policies applied during the different waves of SARS-CoV-2. Finally, he will create different scenarios in order to test the effects of different characteristics of the city/region.

2021

Classification of ordinal outcomes for the analysis of injury severity using machine learning methods (ML for Science CS-433), Hilda Abigél Horváth, Julian Paul Schnitzler, Artur Andrzej Stefaniuk (Communication Systems)

Supervision: Silvia Varotto, Melvin Wong, Michel Bierlaire
Ordinal scale responses capture qualitative user feedback which can be used to model individual choice preference or are employed in traffic accident analysis to evaluate accident severity. In this project, we aim to predict the outcome of the severity of the accident using machine learning methods, specifically, using a deep neural network to train the crash model. The model accuracy will be evaluated on three metrics: discrete classification accuracy, geometric mean probability of correct assignment and quadratic weighted kappa.

Designing and implementing rebalancing operations in car sharing systems using MATSim, Alfio Simone Mosset (Civil Engineering)

Supervision: Selin Atac, Stefano Bortolomiol, Michel Bierlaire
In this project, we will focus on Vehicle sharing systems (VSSs). VSSs are becoming increasingly popular, primarily due to their financial and environmental advantages. However, they face many operational challenges, including inventory management of vehicles and parking spots, vehicle load balancing and redistribution, pricing strategies, and demand forecasting. If these challenges are not addressed properly, the VSS risks experiencing a significant loss of customers and therefore revenue. The literature consists of variety of works on VSSs especially focused on the rebalancing operations. On the other hand, the literature lacks the demand forecasting dimension of the VSSs since it is exhausting to collect the data to develop a demand model. This project will aim to address this problem in a different way. Instead of developing a demand model, we aim to simulate the demand structure using an open-source software MATSim (Multi-Agent Transport Simulation Toolkit). The student is expected to develop an environment in MATSim for a car sharing system (CSS) where the census data is used. Then, he will create different scenarios in order to test the effects of different characteristics of the city/region. She will then identify the cases in which the rebalancing operations are needed. The implementation of rebalancing operations will be adapted from the free floating application of MATSim. In other words, different strategies (static, reactive, and proactive) for rebalancing operations will be tested for each scenario and the results will be used to drive to conclusions which explain the relation between the city structure, demand structure and the different strategies of rebalancing operations.

Modeling Geneva's public transport network following disruption events, Nicolas Richter (Civil Engineering)

Supervision: Marija Kukic, Janody Pougala, Michel Bierlaire
The project is conducted in collaboration with the Transports Publics Genevois (TPG). The principal objective is to simulate the impact of disruptions (e.g. accidents) on the Geneva road network, and to optimize its resilience by proposing targeted and ecient intervention strategies. A particular emphasis will be put on the public transport network.

Matrix factorisation methods, Ambroise Favre

Supervision: Rico Krueger, Michel Bierlaire
The aim of the project is to explore the state-of-the art of the use of matrix factorisation methods in machine learning and econometrics through literature surveys and practical implementation exercises.

Application of sustainable reverse logistics in optimization of last-mile delivery systems, Jacques Roitel

Supervision: Melvin Wong, Michel Bierlaire
This project will investigate the state-of-the-art data-driven approaches to solve these problems using process mining and optimization to model sustainable reverse logistics systems. A comprehensive literature on reverse logistics, last-mile delivery, process mining and optimization techniques will be also be produced. Finally an implementation of the identified approach will be developed as a use case example for reverse logistics

How to assess synthetic data?, Romain Palazzo (Mathematics)

Supervision: Gael Lederrey, Nicola Ortelli, Michel Bierlaire

Designing a MATSIM environment to study the impact of SARS-CoV-2 in mobility, Antoine Crettenand

Supervision: Cloe Cortes Balcells, Rico Krueger, Michel Bierlaire
Countries everywhere in the world have been adopting different policies in order to lower the toll of the COVID-19 pandemic. Epidemiological and behavioural models have been widely used to guide decision making. In this project, we aim at building a disaggregate model (agent-based approach) that will couple two models: one with the activities of people and another one with the transmission of the virus. We hope this new model will provide insight on transmission and intervention that will complete what can be obtained with usual compartmental models (SIR). In order to do that, we will use the Matsim API (Episim), hence the student will not code everything from scratch. First, we will review the existing literature related to epidemiological and activity-based models and get familiar with MATSim software. Then, we will develop an environment in MATSim. Specifically, we will use the Berlin scenario files which are public, together with google mobility data so that we can modify the base mobility according to the different policies applied during the different waves of SARS-CoV-2. Finally, we will create different scenarios in order to test the effects of different characteristics of the city/region.

Road Safety: Investigating the Role of Latent Behaviors in Injury Severity, Daniela Spadaro (Mathematics)

Supervision: Nicola Ortelli, Gael Lederrey, Michel Bierlaire
Reducing the number of fatalities caused by traffic accidents is a major concern everywhere around the world. In order to do so, it is crucial to understand how various factors influence injury severity. The existing literature generally deals with explaining the influence of directly observable variables on the occurence and severity of crashes, but fails to adequately consider driver behavior. Hence, the main goal of this project is to explore approaches that enable the incorporation of latent attitudes in injury severity models. Specifically, we are interested in investigating the "propensity to taking risks" that drivers may exhibit, as well as the influence of such behaviors on the severity of injuries suffered by other road users.

Designing a MATSIM environment to study the impact of SARS-CoV-2 in mobility, Chantal Gressier (Mathematics)

Supervision: Cloe Cortes Balcells, Negar Rezvany, Michel Bierlaire
Countries everywhere in the world have been adopting different policies in order to lower the toll of the COVID-19 pandemic. Epidemiological and behavioural models have been widely used to guide decision making. In this project, we aim at building a disaggregate model (agent-based approach) that will couple two models: one with the activities of people and another one with the transmission of the virus. We hope this new model will provide insight on transmission and intervention that will complete what can be obtained with usual compartmental models (SIR). In order to do that, we will use the Matsim API (Episim), hence the student will not code everything from scratch. First, we will review the existing literature related to epidemiological and activity-based models and get familiar with MATSim software. Then, we will develop an environment in MATSim. Specifically, we will use the Berlin scenario files which are public, together with google mobility data so that we can modify the base mobility according to the different policies applied during the different waves of SARS-CoV-2. Finally, we will create different scenarios in order to test the effects of different characteristics of the city/region.

2020-2021

Designing a MATSim environment for a vehicle sharing system as a transport mode, Paula Vogg (Civil Engineering)

Supervision: Selin Atac, Cloe Cortes Balcells, Michel Bierlaire
A vehicle sharing system (VSS) offers users to rent vehicles for a short period of time. The price of the trip is generally determined according to trip duration and length. These systems are becoming increasingly popular, primarily due to their financial and environmental advantages. However, VSSs face many operational challenges, including inventory management of vehicles and parking spots, vehicle load balancing and redistribution, pricing strategies, and demand forecasting. If these challenges are not addressed properly, the VSS risks experiencing a significant loss of customers and revenue. One of the challenges faced in such systems is the imbalance of the vehicles throughout the city. This problem is solved by forecasting the demand and rebalancing the vehicles to meet user demand. However, since it is exhausting to collect the data to develop a demand model, this project will make use of the Multi-Agent Transport Simulation Toolkit (MATSim) to build this environment. First, the student is going to review the literature related to VSSs and get familiar with MATSim software. The student is expected to develop an environment in MATSim for a VSS where the census data is used and the VSS is the only transport mode in the city other than walking. Then, she will create different scenarios in order to test the effects of different characteristics of the city/region. She will then identify the cases in which the rebalancing operations are needed. In other words, different strategies (static, reactive, and proactive) for rebalancing operations will be tested for each scenario and the results will be used to drive to conclusions which explain the relation between the city structure, demand structure and the different strategies of rebalancing operations.

Schedule repair in liner shipping, Benoit Pahud (Civil Engineering)

Supervision: Stefano Bortolomiol, Nour Dougui, Michel Bierlaire
Large liner shipping companies operate several hundred ships worldwide. These ships carry multi-modal containers on pre-established routes with a regular schedule (typically weekly). A schedule is thus an ordered list of port calls (i.e. stops in a harbour) with associated time windows. Since there are several thousands possible ports in the world, designing routes is a complex problem. Furthermore, since a rotation takes weeks or even months, roughly four journeys out of five end up requiring adjustments to accommodate delays, breakdowns or other unforeseeable but frequent events. Due to the extent of the operations, improving from an adequate schedule to an optimal one may yield enormous benefits, not only economically but also in terms of environmental impact and of quality of life for workers. Given the nominal schedule and an additional constraint stemming from an unforeseen event, the aim of the project is to use geographical information and demand statistics in the various ports of a liner shipping network, the student applies Operational Research methodologies to generate a new optimal schedule, completing as much of the original mission as possible while minimising the ecological and economic impacts.

Generating choice sets of destinations for activity based applications, Nicolas Salvadé (Civil Engineering)

Supervision: Janody Pougala, Tim Hillel, Michel Bierlaire
Understanding human mobility behavior is essential to estimate and forecast transport demand. Activity-based models (ABM) are an increasingly popular approach to integrate complex behavioral dimensions influencing mobility choices, such as habits or social interactions. A signicant challenge in ABM research is the choice set for each individual (consisting of the type of activities, the schedules, the locations and the modes to reach them), which is highly combinatorial and thus impossible to fully enumerate. This pre-study will specically investigate the choice set of locations for individuals' daily activities, guided by (but not limited to) the following research questions: (1) How can we generate a plausible set of locations for an individual to consider, for each of their activities? (2) Which attributes can be used to characterize a location or a space (e.g. opening hours, public transport level of service, job density...) ? (3) What is the required granularity or scale to yield consistent results in terms of activity-based estimation, while maintaining a computational tractability ? (4) What are the data requirements for these tasks? What methods or tools can be used to augment datasets which lack this essential information ? The objective is to develop a methodology to generate a choice set of locations, by means of theoretical and data-driven approaches. The choice of location itself is not included in the scope of this project.

Generating choice sets of transport modes for activity based applications, Benoit Pahud (Civil Engineering)

Supervision: Janody Pougala, Tim Hillel, Michel Bierlaire
Understanding human mobility behavior is essential to estimate and forecast transport demand. Activity-based models (ABM) are an increasingly popular approach to integrate complex behav- ioral dimensions influencing mobility choices, such as habits or social interactions. A signicant challenge in ABM research is the choice set for each individual (consisting of the type of activities, the schedules, the locations and the modes to reach them), which is highlycombinatorial and thus impossible to fully enumerate. This pre-study will specically investigate the choice set of transport modes for individuals' daily activities, guided by (but not limited to) the following research questions: (1) How can we generate a plausible set of modes for an individual to consider, for each of their activities? (2) What are the main determinants for including/excluding a mode in the choice set? (3) What are the data requirements for these tasks? What methods or tools can be used to augment datasets which lack this essential information? The objective is to develop a methodology to generate a choice set of modes, by means of theoretical and data-driven approaches. The mode choice itself is not included in the scope of this project.

Road maintenance management optimisation, Carole Baslé (Civil Engineering)

Supervision: Melvin Wong, Nour Dougui, Michel Bierlaire
Pavement maintenance is one of the major issues of public agencies. Insufficient investment or inefficient maintenance strategies lead to high economic expenses in the long term. Under budgetary restrictions, the optimal allocation of resources becomes a crucial aspect. Therefore, public agencies rely on pavement management system that prioritize and recommend pavement rehabilitation and maintenance to maximize results within a given budget amount. The goal of this project is to produce a literature review on the existing pavement management systems and methodologies that optimize road maintenance on both network and project level. Besides, different road conditions degradation model should be investigated. Finally, a heuristic method for road maintenance should be implemented and tested on a case study while testing different scenarios of road condition degradation.

2020

Analyzing Machine learning regularization methods in travel mode choice prediction (ML for Science CS-433), Simon Dayer, Arnaud Guibbert, Khalil Merzouk (Communication Systems)

Supervision: Melvin Wong, Michel Bierlaire
A problem in machine learning is to make an algorithm perform well not just on the training data, but also on new inputs. There are a number of regularization methods such as L1/L2, Dropout, max-norm that help improve generalization by reducing overfitting/overtraining. A Deep learning model is applied to a travel mode choice dataset. The objective of the project is to investigate regularization methods for improving learning accuracy.

Optimizing Organizational Chart using local search method, Hugo Bocquet

Supervision: Nour Dougui, Selin Atac, Michel Bierlaire
The aim of this project is to produce a near optimal Organisational Chart for a real case study. This Organisational Chart should optimize the span of control of Management in the company by maximizing a coverage metric using clearly-dened manipulations of the organizational design. To achieve this goal a local search method will be used and the results should be compared to those given by an exact method (Simplex). We will in a rst phase apply the optimization method to a small sample of Organisational Chart without considering the role of the employees. In a second phase, the role of the employees should be considered and a larger Organisational Chart should be considered.

Enhancing the Serial Estimation of Discrete Choice Models Sequences, Youssef Kitane (Civil Engineering)

Supervision: Nicola Ortelli, Gael Lederrey, Michel Bierlaire
In the past years, an increasing number of studies has investigated the usefulness of data-driven methods for the task of developing discrete choice models so as to alleviate modelers from the burden of manual specification. One of these methods makes use of a variable neighborhood search algorithm to mimic the way an experienced modeler would build the utility functions of a discrete choice model. More precisely, small modifications are sequentially brought to an initial specification, while the induced improvement is assessed by means of a measure of performance. Although the quality of the generated models is high, this method faces a severe limitation: the computational time for a single run counts in hours with relatively small datasets and grows quickly with the amount of considered data. The main goal of this project is to speed up the estimation of DCMs in this precise context.

Optimal regulation of oligopolistic markets with discrete choice models of demand, Elodie Duliscouet, Paulin Raison, Yahya Basiouny (Mechanical Engineering)

Supervision: Stefano Bortolomiol, Selin Atac, Michel Bierlaire
This project is inspired by the ongoing research project titled 'New generation of demand-supply interaction models', funded by the Swiss National Science Foundation. In particular, the project aims at studying models to find optimal policies to regulate markets characterized by oligopolistic competition and in which consumers make a discrete choice among a finite set of alternatives. In this framework, consumers are modelled as utility maximizers, according to random utility theory. Suppliers are modelled as profit maximizers, according to the traditional microeconomic treatment. Market competition is modelled as a non-cooperative game, for which an epsilon-equilibrium solution is sought. Finally, the regulator can affect the behavior of all other agents, for instance by giving subsidies or imposing taxes. In transport markets, these interventions might target specific alternatives, to reduce externalities such as congestion or emissions, or specific segments of the population, to achieve social welfare objectives. The objective of the project is to analyze, implement and evaluate algorithms to solve realistic applications of this problem, with particular focus on the transportation sector.

Robust routing and scheduling in liner shipping, Yannis Voet (Civil Engineering)

Supervision: Stefano Bortolomiol, Nour Dougui, Michel Bierlaire
Large liner shipping companies operate several hundred ships worldwide. These ships carry multi-modal containers on pre-established routes with a regular schedule (typically weekly). A schedule is thus an ordered list of port calls (i.e. stops in a harbour) with associated time windows. Since there are several thousands possible ports in the world, designing routes is a complex problem. Furthermore, since a rotation takes weeks or even months, roughly four journeys out of five end up requiring adjustments to accommodate delays, breakdowns or other unforeseeable but frequent events. Due to the extent of the operations, improving from an adequate schedule to an optimal one may yield enormous benefits, not only economically but also in terms of environmental impact and of quality of life for workers. Given geographical information and demand statistics in the various ports of a network, the project aims at applying Operational Research methodologies to automatically generating shipping schedules that make sense technically, economically and environmentally, as well as resisting perturbations. This project is proposed by Mediterranean Shipping Company (MSC).

Bayesian analysis of multinomial discrete choice model with t-distributed kernel errors, Thomas Gasos

Supervision: Rico Krueger, Michel Bierlaire
This project develops Bayes estimators for two robust alternatives to the multinomial probit models. Both alternative models belong to the family of robit models, whose kernel error distributions are heavy-tailed t-distributions. The first model is the multinomial robit (MNR) model in which a generic degrees of freedom parameter controls the heavy-tailedness of the kernel error distribution. The second alternative, the generalised multinomial robit (Gen-MNR) model, is more flexible than MNR, as it allows for alternative-specific marginal heavy-tailedness of the kernel error distribution. The performance of the proposed estimators is evaluated on simulated and real data.

Welfare-maximizing design of a transportation system, Benjamin Nicolas--Noir

Supervision: Meritxell Pacheco, Michel Bierlaire
The simulation-based linear representation of a discrete choice introduced allows to linearly approximate the expected maximum utility associated with each individual and simulation draw, which provides a measure of consumer surplus. This is of special interest in the case of advanced choice models (e.g., mixture of logit models), as the expected maximum utility presents a highly nonlinear expression. Hence, a linear formulation for the consumer surplus facilitates the derivation of a generalized objective function of some measure of social welfare as the policy objective, which can be employed to assess the performance of different urban transportation policies. The objective of the project is to provide linear (or piecewise linear) formulations to the different aspects that are included in a published non-linear optimization problem, and compare their performance with respect to the original approach, both in terms of computational time and quality of the obtained solution. Additionally, the impact of the assumptions that lead to nonlinear expressions will be evaluated.

2019-2020

Analysis of the value of demand forecasting within vehicle sharing systems, Jasso Espadaler (Civil Engineering)

Supervision: Selin Atac, Stefano Bortolomiol, Michel Bierlaire
Vehicle sharing systems (VSSs) are becoming increasingly popular, primarily due to their financial and environmental advantages. However, VSSs face many operational challenges, including inventory management of vehicles and parking spots, vehicle load balancing and redistribution, pricing strategies, and demand forecasting. If these challenges are not addressed properly, the VSS risks experiencing a significant loss of customers and revenue. Recently, new VSSs have been introduced which use light electric vehicles (LEVs). These systems face a number of unique challenges. For instance, demand forecasting for LEV sharing systems is more complex, as locations are not fixed and journeys can start and end at any allowable location. LEV sharing systems also serve a higher portion of the population since these type of vehicles do not require a driving license. As such, the existing techniques for analysing VSSs are not sufficient for these new systems. To address this need, one needs to forecast the future demand of this novel transportation mode. Since it is exhausting to collect the data to develop a demand model, this project will aim to identify the value of a demand model by using mathematical models tailored for rebalancing operations from the literature and simulations. As LEV systems are still in their infancy, data describing them is not yet available. Therefore, the student will use alternative data, including PubliBike bike-sharing system data, accounting for any potential differences in the analysis. Based on the findings from the literature, the student will analyse different mathematical models.

Risk assessment of pedestrian crossings, Adrien Nicolet (Computer science)

Supervision: Nicholas Molyneaux, Gael Lederrey, Michel Bierlaire

Tour-based mode choice modelling, Adrien Nicolet (Civil Engineering)

Supervision: Tim Hillel, Janody Pougala, Michel Bierlaire
This project will involve working with real world trip-diary data for London and/or Switzerland to develop sequential tour-based mode-choice models (i.e. where the choice of mode for a trip-leg is dependent on the full tour). The project will involve: � Extracting tour itineraries from the trip-diary data, � Investigating different tour patterns, e.g. primary return-tours, subtours, complex multilegged tours, � Defining different tour-based mode-choice situations which are able to fully represent the tour patterns existing in the data, � Developing appropriate sequential choice models for each mode-choice situation using Discrete Choice Models and/or machine learning.This project will involve working with real world trip-diary data for London and/or Switzerland to develop sequential tour-based mode-choice models (i.e. where the choice of mode for a trip-leg is dependent on the full tour). The project will involve: -Extracting tour itineraries from the trip-diary data, -Investigating different tour patterns, e.g. primary return-tours, subtours, complex multilegged tours, -Defining different tour-based mode-choice situations which are able to fully represent the tour patterns existing in the data, -Developing appropriate sequential choice models for each mode-choice situation using Discrete Choice Models and/or machine learning.

Investigating daily activity patterns, Sergey Gasparovich (Civil Engineering)

Supervision: Janody Pougala, Tim Hillel, Michel Bierlaire
This project will involve working with real world trip-diary data for Switzerland (2015 Mobility and Transport microcensus) to investigate how people schedule activities (e.g. work, lunch, sport, shopping etc) in their day. The project will involve: -Extracting and standardising daily activity schedules from the data, including representing the activity types, locations, start times, and durations with appropriate precision and/or scale, -Establishing a metric to define the similarity (or distance) between different activity schedules, -Using unsupervised machine learning (clustering) algorithms to identify prototypical activity schedules.

2019

Estimation of Discrete Choice Models using HAMABS 2.0, Linah Charif (Civil Engineering)

Supervision: Gael Lederrey, Nicola Ortelli, Michel Bierlaire
Improvement of HAMABS for choice modeling estimation using automatic switch.

Demand forecasting for a novel transportation mode, Denis Steffen (Mathematics)

Supervision: Selin Atac, Tim Hillel, Michel Bierlaire
The vehicle sharing systems (VSSs) are becoming more and more popular due to both economic and environmental effects. However, these systems mainly focus on two specific types of vehicles: bicycles and cars. Recently, some other types of vehicles (e.g. light electric vehicles) with some specific properties that distinguish them from cars and bicycles are introduced for use in such kind of systems. Therefore, they lack research in each component of the framework. The aim of this project is to forecast the demand for a novel transportation mode. The student should survey different types of approaches, such as ARIMA, to forecast demand in similar systems and compare them by identifying performance measures. Since the data for this specific transportation mode does not exist yet the student will be directed to use the taxi data, which shares many properties with the system of interest.

Calibrating pedestrian control strategies., Léopold Bouraux (Computer science)

Supervision: Nicholas Molyneaux, Gael Lederrey, Michel Bierlaire
The objective of this semester project is to calibrate two pedestrian control strategies using heuristic methods and/or optimization methods like simulated annealing or genetic algorithms. Two strategies are under investigation: gating to prevent a gridlock situation and flow separators which prevent counter flow. The student will have to use the pedestrian simulator I have implemented and integrate it with an optimization approach like simulated annealing.

Disruption-caused railway timetable rescheduling problem and its solution, Oliver Mathias Buschor

Supervision: Nikola Obrenovic, Meritxell Pacheco, Michel Bierlaire
In railway networks, unexpected disruptions may occur for different reasons and cause delays, service denial, and, consequently, passenger inconvenience. This planned master project will tackle the railway timetable rescheduling problem from a macroscopic and mesoscopic point of view in case of unexpected disruptions. The master project will consider several remediation strategies such as canceling, delaying or rerouting the trains, or introduction of other transportation modes. The other important aspect of the planned master project is its applicability in practice. Hence, the outcome of the project will be the algorithm for timetable rescheduling which will be implemented in the commercial software suite Viriato. The main functionality of Viriato is the train timetabling and it is produced by the company SMA und Partner AG. In order to prepare the candidate for the master project, this pre-study project will include several introductory tasks related to the problem comprehension, solutions approach and algorithm implementation. Therefore, the tasks of this project will be: 1) review of the relevant literature, 2) demand data preprocessing with the purpose of matching infrastructure and demand data, and 3) obtaining the knowledge of the Viriato software and its Algorithm Platform which enables extension of Viriato with third party algorithms.

Location choice equilibrium - pedestrian demand analysis at EPFL campus, Tianyang Dong (Mathematics)

Supervision: Yuki Oyama, Zhengchao Wang, Michel Bierlaire
Modeling location choice is fundamental to understand travel behavior and to predict travel demand in urban spaces. Location choice models are often developed based on the discrete choice framework and allow the analyst to predict to which place (and when) an individual travels. While the location choice behavior has been studied a lot in the city scale, the literature in pedestrian facilities is relatively limited. In this project, we develop a pedestrian location choice model in the EPFL campus, using the data collected from Wi-Fi traces. We start with developing a simple location choice model and test its specications using the sample. Then the student collects additional data of population for aggregate forecasting, i.e. actual demand prediction at each location. Using this technique, we then extend the model to consider the congestion effect. This involves in a fixed point problem to achieve a Nash equilibrium, solved by the nested fixed point (NFXP) algorithm or the nested pseudo likelihood (NPL) algorithm.

Passenger satisfaction maximization under budget constraints, Tatiana Moavensadeh-Ghasnavi

Supervision: Meritxell Pacheco, Yuki Oyama, Michel Bierlaire
This project aims at characterizing a passenger satisfaction application relying on a demand-based optimization framework, which integrates discrete choice models (state-of-the-art for the mathematical modeling of the demand) n Mixed Integer Linear Programming (MILP) models, which are usually considered to address supply decisions such as the price of a service or the number of units to produce of a certain item. This formulation allows us to express passenger satisfaction directly in terms of the expected maximum utility of the future scenario, which simplifies notably the common representation relying on the consumer surplus. The objective is the maximization of the passenger satisfaction in a short-distance commuting context while accounting for different settings with respect to road tolling and investment in public transportation.

2018-2019

Dynamic optimization of self-service vehicles, Mohamed Detsouli (Civil Engineering)

Supervision: Stefano Bortolomiol, Nikola Obrenovic, Michel Bierlaire
This project is a pr�-�tude project that will prepare the student to working on the Master thesis. The proposed topic is related to the dynamic optimization of self-service vehicle fleets, with a possible focus on dynamic pricing.

Railway infrastructure maintenance, Ludovica Sessa and Robert Abboud (Management of Technology and Financial Engineering)

Supervision: Stefano Bortolomiol, Selin Atac, Michel Bierlaire
Following this summer tragedy in Genoa, Italy, European states and governments became more aware of the importance of keeping their countries� infrastructure modern and maintained. This interdisciplinary project will particularly focus on the topic of railway infrastructure maintenance and will cover some legal, economic, social, political aspects related to this socio-economic problem. The goal of this project is to study the topic of railway infrastructure maintenance from two perspectives. Initially, a qualitative analysis will be performed to precisely define the scope of the research and the main factors that affect the planning of investments to maintain railways infrastructures. Based on the findings of the qualitative analysis, the students will then critically analyze existing mathematical models that generate maintenance schedules and optimal railway investments, and will propose a framework which will be applied on a real-life case study.

Formulating and solving a dial-a-ride problem, Rym Karime (Civil Engineering)

Supervision: Yuki Oyama, Nour Dougui, Michel Bierlaire
The Dial-a-Ride Problem (DARP) is a problem to design a vehicular route and schedule, given the passenger requests that are characterized by origins (pickup points) and destinations (delivery points) often with the time windows. In recent years, solving the DARP is increasingly demanded, re ecting new technologies for mobility. On-demand transportation for elderly or disabled people is a typical example of application. The project is mainly dedicated to the following specific tasks. First, the literature review will be done so that the student gets familiar with the model concepts and formulations of the DARP. The student is expected to understand the difference among several types of models, such as between static and dynamic models, or between single-vehicle and multi-vehicle models. At the same time, the solution methodologies that are relevant to each type of DARP will be investigated. Second, the student should acquire the basic skills for optimization problem. Though several exercises, she will get used to coding and using appropriate softwares for solving the problem. Given the knowledge and skills, finally, she should define a DARP for a specific example. The problem will be solved by at least two methodologies and be analyzed.

Optimal taxi charging decision given the real-time charging station and taxi states and future uncertainties, Julien Johan Haan (Section of GC), Loic Senser (Section of MTE) (Civil Engineering)

Supervision: Zhengchao Wang, Yuki Oyama, Michel Bierlaire
This project aims at optimizing the charging decision of taxi drivers. Different from conventional taxi drivers, electric taxi drivers are more influenced by their refuelling strategy. This is because the refuelling process of electric taxis is longer than conventional taxis, especially in the case that electric taxis need to wait before charging. This longer charging duration will decrease the serving time of electric taxis which will, in return, influence the profits of electric taxis. Therefore, an intelligent charging decision strategy which can help electric taxis to charge optimally (maximizing the profit of taxi) is highly desirable. To build the optimal charging decision program, we assume that a taxi will make a decision at each time step. When the taxi drivers make a decision, we assume that the taxi driver knows that, in the future hours, what are the expectation and variance of revenue during each time period (let's say 30 minutes). In addition to that, the taxi driver also knows the exact position of charging station and the chargers that are installed in the station. Besides, we also assume that the taxi driver also receives information about the availability of chargers from all stations by the time he makes a decision. Moreover, the taxi driver also has a prediction of the congestion condition of the charging station in the following hours. Based on the above assumption, the taxi drivers make his charging decision at each time step, i.e. charge or not, if charge, where, and when to charge for how much. The students who work on this project should build an optimization program which can make the charging decision for the taxi driver. This project is composed of two stages. First, the students will look into the taxi tracking data to understand the taxi request characteristics. This includes the mean and variance of a taxi running distances and revenue from served taxi demands across the taxis. After, the students will learn to come up with an optimization program which can help the taxi drivers to make the charging decision given the current states of taxis and its knowledge about the future world.

Towards a techno-economic evaluation framework for regional train propulsion architectures, Florian Mueller

Supervision: Nour Dougui, Nikola Obrenovic, Michel Bierlaire
Railway can be the most environmental mode for land transport. However the sector faces cost challenges. Apart from main routes, tracks are often not electrified, requiring pollutive and operational expensive diesel propulsion systems. In contrary to road vehicles, there are no commercial large-scale applications of hybrid drivetrains. Furthermore, the dependencies of hybrid drivetrains on energy supplying infrastructure, like overhead wires or recharge points, has not been researched yet. In order to assess the potential of hybrid drivetrains holistically, the project Toolbox for Optimal Railway Propulsion Architectures (TORPA) has set up a framework to define drivetrain solutions, optimize them, and compare them among each other. Prior to this semester project, 58 drivetrain architectures have been defined. One of them was optimized toward the objectives of driving CO2 emissions and investment costs, on a specific use case. However, these bare results were inconclusive and expensive to compute for more than one use case. In this semester project, we downselect the number of possible architectures, outlining the currently most relevant ones. Furthermore, we include infrastructure requirements in the definition of architectures. The metric of investment cost is extended to display the full life cycle costs of architectures. The model of driving CO2 emissions is attempted to display all vehicle life cycle emissions, but left at the current state after qualitatively stating significant CO2 contributors not included in the calculation models. In order to assess the potential of the extended framework, it was required to state test cases, define tangible experiments, and prioritize them. Previously, it is researched which parameters should be chosen to be relevant for such experiments. Thereby, representative generic test tracks are conceived. We choose the question of viability of track electrification as first test case for the software framework. Thus, the currently operating vehicle architectures for diesel or full electric operation are applied. Especially the impacts of currently existing electrification infrastructure and track parameters, like distance and stop frequency, are investigated. Firstly, we imply a track with average constitution and operation. It is found, that the break even of track electrification is reached when a third of it is already electrified due to e. g. intersection with other tracks. Furthermore, we find that stop frequency is decisive for electrification break even: Tracks with shortened stop distance may be cheaper to be operated electrically, even if there is no catenary infrastructure built up yet.

2018

Goodness of fit in DCMs, Jessica Hopkins (Mathematics)

Supervision: Gael Lederrey, Michel Bierlaire, Nicholas Molyneaux
In these last years, with the arrival and wide-spreading of Big data, the discrete choice modeling community has gained access to larger datasets, more computing power and the possibility to drastically increase model complexity. It has therefore become crucial to establish precise measures of the goodness of fit as well as techniques to detect and reduce overfitting. We propose to apply known techniques from machine learning � such as cross-validation � to discrete choice models. We investigate the existence of overfitting in discrete choice models using a linear and a polynomial multinomial logit model on the Optima dataset. We adopted a train-test approach to evaluate model performance. Model estimates for both models were computed on N = 100, 200 and 500 runs of random train-test splits, using an 80-20 ratio. The results show that the polynomial model has better fit on the training samples, but performs worse than the linear model on the testing set, indicating the presence of overfitting. The use of K-fold cross-validation for simple multinomial logit models has also been explored. However, model estimates obtained using K-fold cross-validation did not differ from the model estimates estimates obtained from a single model fitting, due to underfitting. The distributions of the results obtained on the Optima dataset motivated the exploration of an empirical hypothesis test to determine the presence of overfitting. The test is based on the assumption that training and testing samples of a model which is not overfitting will have the same mean. This test was implemented using the t-test for two samples with unequal variances, also known as Welch test. This empirical test presented in this report did not differentiate the models in terms of overfitting. However, it could be a starting point of our future research, which will be aimed at establishing a statistical definition of overfitting.

Optimization of school accessibility in developing countries, Yassine El Ouazzani, Oliver Mathias Buschor (Civil Engineering)

Supervision: Riccardo Scarinci, Meritxell Pacheco, Michel Bierlaire
The Global Program for Safer Schools (GPSS) focuses on risks linked to education infrastructure. The program aims to save lives and reduce the physical impact of disasters on school infrastructure. We are working with the Kyrgyz Republic Government to improve the capacity to respond to disasters, providing safer and quality learning environment for children, and managing the cost of disasters and climate shocks. This semester project/master thesis proposes a methodology to optimize educational infrastructure networks based on accessibility; and proposes solutions to improve the performance of educational infrastructure networks. In other words, it optimizes the location and the dimension of school buildings. Several factors are included such as transportation network, home location of the students and mobility patterns. The results is a methodology to suggest investments to reduce the risks in case of disaster. The cities of Bishkek in the Kyrgyz Republic is used as a case study. Methodologies from optimization, programming (Java) and geographical information system (GIS) will be used for completing this project.

Locating charging station for electric taxis, Oliver Mathias Buschor, Younes Bensaid

Supervision: Zhengchao Wang, Meritxell Pacheco, Michel Bierlaire
This project aims at locating the position of charging station for electric taxis. Currently, transportation is transforming to be more sustainable. The electric vehicle is a promising way to achieve such a goal. However, charger unavailability is among one of the main issues that hindered the adoption of the electric vehicle. To contribute to mitigating such issue, this project is dened accordingly to optimize the charging station location. The location problem is a classic problem in the operational research domain. It is usually solved using a p-median, p-mean, set covering, or flow covering method. The goal of this research is to apply these methods to decide the location of charging stations in San Francisco using taxi tracking data and compare the dierence in the end. This project is composed of three stages. First, the student should work on mapping the taxi tracking data on the map using map-matching techniques. Then, the student should apply point-based location methods (p-median, p- mean, set-covering) to find the optimal location. The student is not required to apply all the relevant methods but chooses one or two in which he is interested. After, the students will apply and characterize a flow-based method. Finally, an analysis of the results is performed to evaluate the results obtained.

Cost Reduction Uisng Passenger Centric Timetabling, Robert Abboud (Management of Technology and Financial Engineering)

Supervision: Virginie Lurkin, Michel Bierlaire
"To design their timetables, train-operating companies mostly focus on operational aspects and cost. In Switzerland, a paradigm of transportation planning is to create regular-interval timetables (a.k.a. cyclic timetables) which aim for maximal transfer connections, simplicity and hence user friendlyness. SBB uses travel simulation models to predict the impact of timetable changes on travel demand and revenue. Mathematical timetable optimization methods are not yet used by SBB. But a recent EPFL thesis (2016) shows that the timetable itself has a significant impact on the performance of the operator in terms of the number of transported passengers: a timetable design that considers the behavior of passengers leads to higher revenue(s), market share(s), higher value of passenger-km etc. In this project, the aim is to use the optimization methods developed by the TRANSP-OR Lab consisting in combining cyclic and non-cyclic timetables and apply it to the Swiss Federal Railways� timetable design. The goal is to evaluate the performance of the current Swiss interval timetable and to compare it to the optimal one. Suitability of hybrid timetables for the Swiss railway network will be investigated".

Design of a stated-preferences survey for a high-speed vacuum transportation mode, Thibaut Richard et Martí Montesinos Ferrer

Supervision: Meritxell Pacheco, Yuki Oyama, Michel Bierlaire
Since the high-speed vacuum transportation technology represents an innovative transportation mode, it is necessary to obtain data from surveys of hypothetical market/situations, the so-called stated-preferences (SP) surveys. The goal of this project is to design an SP questionnaire to evaluate the impact of this innovative transportation mode and to measure some indicators (such as the willingness-to-pay). A pilot test of the preliminary survey in a small sample will be carried out in order to evaluate the quality of the questionnaire. The main findings will be used to define the final survey that will be distributed to a representative sample of the population by a specialized company.

Modelling competition in demand-based optimization models, Charlotte Darné (Mathematics)

Supervision: Stefano Bortolomiol, Virginie Lurkin, Michel Bierlaire
The project aims at studying and understanding the interactions between supply and demand in an oligopolistic market, in which multiple operators compete for the same pool of customers. This is a common situation in the transportation sector as well as in other markets. Operators take the supply-side decisions that optimize their own performance function (e.g. maximization of revenues or profits). Such decisions are influenced both by the decisions of their competitors and by the preferences of the customers who consider purchasing one of the services offered on the market. The latter ones are modelled at a disaggregate level according to the random utility theory. The starting point of the project is a recent modelling framework that allows to include any random utility model in a mixed integer optimization formulation. In this framework, a single operator exploits its knowledge of the demand to maximize its objective function, while assuming that the decisions of its competitors are held fixed. The goal of this project is to extend the existing framework by including the case in which two operators simultaneously optimize their decisions. Such problem falls into the category of competitive games called two-player non-cooperative games. The student will refer to the concept of Nash equilibrium to answer questions such as "how does competition affect prices?", "what products should each competitor offer and in which quantity?", "should two competitors fight to attract the same group of customers or should they each target a different market segment?", among others.

A solution approach for the Multicommodity Flow Problem within rail freight transportation, Nicolas Pradignac (Computer science)

Supervision: Stefano Bortolomiol, Nikola Obrenovic, Michel Bierlaire
This project aims at studying the Multicommodity Flow Problem (MFP), which has several real life applications, particularly within the transportation sector. The project has been inspired by an ongoing research project conducted by TRANSP-OR in collaboration with SBB Cargo. In the context of railway freight operations, companies have limited availability of both railway lines and trains. Therefore, they have the goal to optimize as much as possible the usage of their resources in order to minimize the cost of transporting the goods. Such optimization problem can be modelled as a MFP. This project is composed of two stages. First, the student will learn the mathematical model of the MFP, in its two variants: node-arc formulation and path-based formulation. The two variants will be coded and tested on small instances by using a Mixed-Integer Linear Programming (MILP) solver such as CPLEX. Further, the student will implement a solution method to solve larger instances of the problem, by using either an exact method (such as column generation) or a heuristic method.

Development of a heuristic algorithm for a hub location problem, Thibaut Guillaume Marie Richard

Supervision: Nikola Obrenovic, Nicholas Molyneaux, Michel Bierlaire
In railway networks, the location of marshalling and shunting yards, i.e. facilities used for sorting and consolidation of transported goods, determines the costs of cargo transport to a great extent. Hence, each railway company is highly motivated to determine the optimal location of these yards. Such task can be represented as a multi-level facility location problem or a hub location problem. The aim of this project is the development of an heuristic algorithm for solving a facility location problem with facilities split in multiple hierarchical layers. The project will be a part of a larger research project done in the cooperation with SBB. The student will start from understanding the exact mathematical model of the mentioned problem and encode it into a heuristic algorithm, e.g. a local search algorithm or VNS. Also, the student will have to solve the problem on a smaller data set using an exact method and compare the solution with the results of the heuristic algorithm. The student needs to have good programming skills (Java or some other OO language) and knowledge of mixed integer linear programming and heuristics.

Safer schools thanks to an improved transport access in developing countries, Zora Oswald

Supervision: Riccardo Scarinci, Meritxell Pacheco, Michel Bierlaire
The Global Program for Safer Schools (GPSS) focuses on risks linked to education infrastructure. The program aims to save lives and reduce the physical impact of disasters on school infrastructure. We are working with the Kyrgyz Republic Government to improve the capacity to respond to disasters, providing safer and quality learning environment for children, and managing the cost of disasters and climate shocks. This semester project/master thesis proposes a methodology to assess and optimize educational infrastructure networks based on accessibility; and proposes solutions to improve the performance of educational infrastructure networks. In other words, it evaluates the risks based on the school network, including parameters like transportation network, home location of the students and mobility patterns. The results is a methodology to suggest investments to reduce the risks in case of disaster. Two case studies will be carry on in the cities of Bishkek and Osh in the Kyrgyz Republic. Methodologies from transportation studies, geographical information system (GIS) and programming will be used for completing this project.

Building offline and online optimization algorithms for dispatchment of teams at Nez Rouge., Colin Ducommun

Supervision: Gael Lederrey, Nicholas Molyneaux, Michel Bierlaire
Nez Rouge (http://nezrouge.ch) is a swiss charitable association with the purpose of driving people back home safely during the cold nights of December. They have to find many volunteers across the whole country and the demand never stops growing. Instead of helping them find new volunteers, I propose to solve one difficult task: dispatching efficiently the volunteers, the idea being to reduce the waiting-time of customers. Using data provided by Nez Rouge, we will first build an offline optimization problem to find a lower bound on the estimated waiting-time and compare it to the actual waiting-time. The second step will be to build an online optimization problem using the API of OpenStreetMap to solve this problem in real-time. The third and final step will be to build a webpage for the volunteers at Nez Rouge. Note: This project can be done as a master project or split between multiple semester projects, depending on the number of credits you have to do.

2017-2018

On the optimization of CAPEX and OPEX for the design of a full electric large capacity urban bus system, Guillaume Mollard (Computational science and engineering)

Supervision: Virginie Lurkin, Stefan Binder, Michel Bierlaire
During the last few decades, environmental impact of the fossil fuel-based transportation infrastructure has led to renewed interest in electric transportation infrastructure, especially in urban public mass-transportation sector. The deployment of battery-powered electric bus systems within the public transportation sector plays an important role to increase energy efficiency and to abate emissions. RAn efficient feeding stations installation and an appropriate dimensioning of battery capacity are crucial to minimize the total cost of ownership for the citywide bus transportation net- work. The objective of this project is to extend an existing optimization model to the multiple lines case and to come up with an objective function that better reflect the real costs incurred by the operator. The objective function should include Capital Expenditures (CAPEX) and Operational Expenditures (OPEX). For the multiple line case, the central issue is to deal with the feeding stations that are shared among different lines.

Integrating demand and supply in the context of airlines, Thibaut Richard et Gabriel Curis (Civil Engineering)

Supervision: Meritxell Pacheco, Anna Fernandez Antolin, Michel Bierlaire

From public transport vehicles to pedestrian flows., Rodolphe Farrando

Supervision: Nicholas Molyneaux, Gael Lederrey, Michel Bierlaire
The objective of this semester project is to extend the notion of "train induced flows" to other modes of public transport. When public transport vehicles arrive in the station, many passengers disembark. From the infrastructure's point-of-view, there is a flow of pedestrians arriving. The characteristics of such flows depend on the vehicle's characteristics (door width for example) and the characteristics of the infrastructure (width of the corridors for example). The student will explore the different interactions and characterize the different flows by using models similar to the "train induced flows" model, already published. The specifications will be different based on the various modes and platform setups. The second objective is to explore the feasibility of using a Poisson distribution to model the pedestrians arriving onto platforms. Similarly to alighting flows, different configurations can lead to different model specifications. The student will start by exploring the literature then, based on the pre-existing models, some new formulations can be proposed. Data is available for calibration of pedestrian flows boarding trains. Synthetic data can be used for the calibration of other models. This project can be done during the spring 2018 semester.

2017

Alternative activity pattern generation for stated preference surveys, Nicola Marco Ortelli (Civil Engineering)

Supervision: Anna Fernandez Antolin, Gael Lederrey, Michel Bierlaire

Identifying the objectives of car drivers route choice behavior, Nicola Marco Ortelli

Supervision: Evanthia Kazagli, Marija Nikolic, Michel Bierlaire
The goal of this project is to shed light on the underlying objectives of car drivers' behavior --- pertaining to their route choices --- when traveling from one location of a transportation network to another. The student will use clustering methods, defined on the basis of different measures of similarity, that are associated with potential objectives such as the minimization of the travel time, the length or the complexity of a route. The results of the clustering will be analyzed to draw insights into the use of specific objectives depending on the features of the trip, such as the origin and destination points, and the departure time. The project involves an initial stage of data processing. The student needs to have good programming skills (Matlab or equivalent) and good knowledge of statistics. Familiarity with SQL is a plus.

Modeling purchases of new cars for 2015: a comparison between countries, Martí Montesinos (Civil Engineering)

Supervision: Anna Fernandez Antolin, Meritxell Pacheco, Michel Bierlaire
We are interested in analyzing the behavior of people when they face the decision to buy a new car. We have a large dataset containing information of new car purchases, where respondents answered to several questions related to their socioeconomic characteristics and to the attributes of their recently purchased car. We have developed a framework that has been applied to the data corresponding to France in 2014. The objective of this semester project is to apply it to 2015 for several countries (France, Germany, Italy and Spain) and to obtain and predict market shares in each of the countries as well as to compute willingness to pay towards different attributes. Moreover, the student will analyze the difference between the different countries and between the different years.

Planning of feeding station installment for a full electric large capacity urban bus system, Adrien Ruault (Computer science)

Supervision: Virginie Lurkin, Marija Nikolic, Michel Bierlaire
The integration of customer behavioural models in optimization provides a better understanding of the preferences of clients (the demand) to policy makers while planning for their systems (the supply). These preferences are formalized with discrete choice models, and the corresponding optimization models where supply and demand closely interact are associated with (mixed) integer optimization problems. One concrete application of this integration consists of an operator selling services to a market, each service at a given price to a finite number of customers, called the capacity of the service. We are interested in finding the best strategy in terms of pricing and capacity allocation in order to maximize the revenues of the operator. The project objectives can be tailored for both Master or Semester project students.

Speed profile of an innovative catenary-free electric bus, Valentin Axel Olivier & Nicolet Adrien (Civil Engineering)

Supervision: Riccardo Scarinci, Virginie Lurkin, Michel Bierlaire
The TOSA bus system is a revolutionary catenary-free electric bus concept that includes small short-range on-board batteries and a series of fully automated fast charging stations installed at some bus stops. The automatic fast-charging stations partially replenish the bus batteries in a few seconds whenever a bus arrives at the bus stops, while avoiding any interference with the bus schedules and operations. This system has been defined during the project myTOSA 1.0 and implemented in a pilot test in the city of Geneva in 2013. The project myTOSA 1.0 is currently extended by the project myTOSA 2.0. myTOSA 2.0 is composed of several modules, the most relevant for this semester project is the traffic simulation. The traffic simulation represents the movement of the buses in a network, and requires a representation of the infrastructure as an input. This project aims to define the typical speed profile of an electric bus moving in an urban network. The speed profile includes acceleration and deceleration patters for different driver behaviour, network configurations and traffic levels. The influence of traffic lights, bus priority, roundabouts on the speed profile should be investigated. The first step to achieve this aim is to define the probability distribution of the number of intersections crossed by the bus. This step is necessary to complete this project successfully. Further steps in the directions of the definition of the speed profile are considerate optional. Methodologies from transportation modelling, geographical information system (GIS) and programming (MATLAB) will be used for completing this project.

Emotions and risky discrete choices, Le Sueur Cécile Christianne Anny Déborah Suzanne (SMA)

Supervision: Matthieu de Lapparent, Michel Bierlaire
This CSE project aims at understanding, analyzing and quantitative modeling of the roles of emotions in risky choice making

Modeling public transport transfers in the “new” Lausanne train station, José Ramón Rodriguez

Supervision: Nicholas Molyneaux, Riccardo Scarinci, Michel Bierlaire
Exploration of the tracking data collected in the main station of Basel. The objective is to calculate passenger-centric variability indicators and perform some simple modelling tasks.

Building an integrated model for modelling pedestrian movements inside hubs, Charles Jeanbart

Supervision: Nicholas Molyneaux, Riccardo Scarinci, Michel Bierlaire
The objective of this project is to build a simulator for measuring the impact of management strategies inside transportation hubs.

Models for pedestrian movements based on integrated and sequential clustering, Konde Romain Olivier Bondo

Supervision: Marija Nikolic, Iliya Markov, Michel Bierlaire
The focus of this study is the modeling of speed-density relationship for pedestrian movements using the potential of available data. The data set considered in this project contains pedestrian trajectories collected in the train station in Lausanne. To track pedestrians, a large-scale network of tracking sensors is installed in the station (Alahi et al., 2014). The analysis we have performed reveals a high scatter in the data. To characterize the observed scatter we have developed a multi-class model of the speed-density relationship based on the latent class modeling approach (Nikolic et al., 2017). The latent class approach allows for modeling the segmentation in the population and the movement behavior simultaneously. The aim of this project is the derivation of the model representing speed-density relationship based on a two-stage (sequential) approach. The first stage involves segmentation of pedestrian trajectory data, by using machine learning techniques (clustering). In the second stage, a separate speed-density model is to be estimated for each cluster discovered in the first stage. The performance of the approach will be tested using real data, and compared to the more integrated, latent class approach.

2016-2017

Investigating the role of attitudes in the purchase of new cars, Nicola Ortelli

Supervision: Anna Fernandez Antolin, Meritxell Pacheco, Michel Bierlaire
Attitudes and perceptions play an important role in decision-making processes. We are interested in new car purchases, and how attitudes and perceptions play a role in this context. We have a large dataset containing information of new car purchases, where respondents answered to several attitudinal questions. The objective of this semester project is to analyze these attitudinal questions, starting with principal component analysis. The study will be expanded to see how these attitudes affect purchases of new cars, and of electric vehicles in particular.

2016

Price of anarchy in public transit networks, Marc-Edouard Schultheiss (Civil Engineering)

Supervision: Stefan Binder, Tomás Robenek, Michel Bierlaire

Une modélisation de la grande mobilité, Pauline Hosotte

Supervision: Matthieu de Lapparent, Michel Bierlaire

Grandes mobilités réversibles. Approche par la modélisation dynamique de choix discrets., Alexis Gumy

Supervision: Matthieu de Lapparent, Michel Bierlaire

4. Modeling Route Choice in Quebec City Using Mental Representations, Mathieu Plourde

Supervision: Evanthia Kazagli, Matthieu de Lapparent, Michel Bierlaire
In this project, we build upon previous work proposed by Kazagli et al., 2016 to model route choice for a big network and dataset concerning the city of Quebec. We aim first to define the mental representation items (MRIs) for the case study and then to derive operational route choice models based on them. A GPS dataset from the city of Quebec is available and will be used for this purpose. The focus of the project is methodological.

Demand based rolling stock allocation, Salma Derouiche (Computer science)

Supervision: Yousef Maknoon, Tomás Robenek, Michel Bierlaire
Providing a high level of service for the passengers is one of the most important requirements of passenger railway company. In practice during rush hours passengers cannot be transported according to usual service standards because of a shortage of the rolling stock capacity. The purpose of this pre-project is to determine an efficient method to allocate the rolling stock taking into account passengers demand.

Passengers' connection time preferences in airline itinerary choice, Elisabeth Zbinden (Civil Engineering)

Supervision: Virginie Lurkin, Matthieu de Lapparent, Michel Bierlaire
As noted by Theis et al. (2006), "Network airlines traditionally attempt to minimize passenger connecting times at hub airports, assuming that passengers prefer minimum scheduled elapsed time for their trips. However, minimizing connecting times creates schedule peaks at hub airports. These peaks are extremely cost-intensive in terms of additional personnel, resources, runway capacity, and schedule recovery. Consequently, passenger connecting times should be minimized only if the anticipated revenue gain of minimizing passenger connection times is larger than the increase." Prior work has used (small) stated preference surveys to estimate customers' connection time preferences, and explicitly whether this function is nonlinear with connection time (i.e., customers avoid very short connections and very long connections). However, little is known as to how these connection time preferences vary as a function of other characteristics, including flight frequency (or schedule delay), length of haul, whether the flight is the last flight of the day, prior on-time performance of flight legs. As part of this project, the student will estimate airline itinerary choice models using a large ticketing database provided by the Airlines Reporting Corporation (ARC). The student will build off of prior MNL models that have been estimated which have corrected for price endogeneity and focus explicitly on refining the utility function related to connection time preferences.

Generalization and policy analysis for a rich inventory routing problem, Prisca Aeby (Computer science)

Supervision: Iliya Markov, Yousef Maknoon, Michel Bierlaire
We solve a rich logistical problem inspired from practice, in which a set of trucks is used for collecting recyclable waste from large containers over a finite planning horizon. Each container is equipped with a sensor, which communicates its level at the start of the day. Given a history of observations, a forecasting model is used to estimate the point demand forecasts as well as a forecasting error representing the level of uncertainty. The problem falls under the framework of the stochastic inventory routing problem. We introduce dynamic probabilistic information in the solution process, which impacts the cost through the probability of container overflows on future days and the probability of route failures. To solve the problem, we implement an adaptive large neighborhood search algorithm, which integrates a specialized forecasting model, tested and validated on real data. The student will analyze the performance of the algorithm and its results for various scenarios and collection and routing policies. In particular, we would like to see the impact on the best solution of the full probabilistic model with various cost parameters against simpler policies, such as one using buffer truck and container capacities to handle stochastic demand. We would like to apply the model on a rolling horizon basis and analyze the expected value of perfect information, the properties of the stochastic solution, etc. Other practical features such as open tours, multi-product problems, etc. may also be explored. We can also work on improving the algorithmic performance per se through new operators and more intelligent search strategies in the current implementation. This project is appropriate for a student with excellent coding skills in Java and knowledge of a good software for plotting and data analysis such as Matlab or R. The focus of the project will be suited to the student's interests, coding abilities, and the number of credits he or she needs.

Measure of user-oriented service variability in hubs, Anouk Allenspach and Dieynaba Dia (Civil Engineering)

Supervision: Nicholas Molyneaux, Riccardo Scarinci, Michel Bierlaire
This project's goal is to explore the service variability (reliability) in public transport hubs. Three operator oriented service characteristics are common in literature (robustness, reliability and punctuality). As these measures are operator oriented, they might not reflect actual level-of-service (LOS) experienced by users (pedestrians). To account for this difference, user-centered measures will be defined then observed using an already secured data set. Some examples of variability measures are OD travel time, passenger transfer times, passenger waiting times, train punctuality, etc. The main data sets used for this project is the pedestrian tracking data from the Lausanne and Basel train stations and possibly some effective train time tables.

Accounting for dynamics in pedestrian multi-class speed-density relationship, Marc-Edouard Schultheiss (Civil Engineering)

Supervision: Marija Nikolic, Matthieu de Lapparent, Michel Bierlaire
The relationship between speed and density plays an important role in modeling of pedestrian traffic. It is useful for planning and design of pedestrian facilities, and it is also a required input or calibration criterion for models of pedestrian dynamics. The relationship is specified under the assumption that the traffic system is at equilibrium (stationary and homogenous). The analysis we have performed, based on the data collected in the Lausanne train station, rules out the use of a unique equilibrium relationship due to a high scatter in the data. This scatter may be explained by the violation of the equilibrium assumptions, as documented in the literature. To characterize the observed scatter we have developed a multi-class model of the speed-density relationship based on the latent class modeling approach. The model is derived by relaxing the homogeneity assumption of equilibrium relationships. It is assumed that pedestrian population is heterogeneous (e.g. different trip purpose, different time to departure, etc.) and that this heterogeneity leads to the existence of multiple pedestrian classes that are characterized by different behavior. There are two specification issues related to the panel data set (data collected over multiple time periods for the same sample of individuals) that we use in our analysis. The first is serial correlation across the observations of the same individual due to unobserved individual factors that persist over time. The second is related to dynamics, meaning that the speed in one period may depend on the speed values in the past. We have addressed the first issue by introducing an agent effect in the model that captures individual related unobserved factors. We term this model the static model with agent effect. The aim of this project will be to deal with the second issue, or dynamics. We will start with the simplified assumption that the speed at time t is influenced by the speed at time t - 1 only. We term such a model a dynamic model with agent effect. The performance of the approach will be tested using real data.

Pricing and capacity allocation strategies for a demand-based revenues maximization problem, Jonathan Lachkar (Civil Engineering)

Supervision: Meritxell Pacheco, Virginie Lurkin, Michel Bierlaire
The integration of customer behavioural models in optimization provides a better understanding of the preferences of clients (the demand) to policy makers while planning for their systems (the supply). These preferences are formalized with discrete choice models, and the corresponding optimization models where supply and demand closely interact are associated with (mixed) integer optimization problems. One concrete application of this integration consists of an operator selling services to a market, each service at a given price to a finite number of customers, called the capacity of the service. We are interested in finding the best strategy in terms of pricing and capacity allocation in order to maximize the revenues of the operator. The project objectives can be tailored for both Master or Semester project students.

Energy consumption of an innovative catenary-free electric bus, Xiaoran Yu

Supervision: Riccardo Scarinci, Yousef Maknoon, Michel Bierlaire
Electric busses help to decrease pollution in city centers. However, they need to be constantly attached to a power source. This limits their mobility and brings visual pollution due to continuous catenaries throughout the city. Focus of this project is a revolutionary catenaryfree electrical bus that includes short-range on-board batteries and a series of fast charging stations installed at some bus stops capable to charge the bus batteries in a few seconds without interference with the bus schedules. This project aims to develop a traffic simulation of this electric bus moving on a simple road network. A discrete event simulation representing the fundamental components of the system (e.g. bus, passengers load, on-board battery, charging station, storage level) should be developed, calibrated and validated using traffic data (such as number passengers on board, traffic and congestion information). Then, key indexes representing the system performance should be defined (e.g. travel time, dwell time, battery charge level). Methodologies from transportation modelling, simulation and programming (Java) will be used for completing this project.

Modeling evolution of sales of alternative fuel vehicles in Europe, Christophe Paillard (Mathematics)

Supervision: Matthieu de Lapparent, Michel Bierlaire

Traffic simulation model of an innovative catenary-free electric bus, Romain Meyer (Civil Engineering)

Supervision: Riccardo Scarinci, Yousef Maknoon, Michel Bierlaire
Electric busses help to decrease pollution in city centres. However, they need to be constantly attached to a power source. This limits their mobility and brings visual pollution due to continuous catenaries throughout the city. Focus of this project is a revolutionary catenary-free electrical bus that includes short-range on-board batteries and a series of fast charging stations installed at some bus stops capable to charge the bus batteries in a few seconds without interference with the bus schedules. This project aims to develop a traffic simulation of this electric bus moving on a simple road network. A discrete event simulation representing the fundamental components of the system (e.g. bus, passengers load, on-board battery, charging station, storage level) should be developed, calibrated and validated using traffic data (such as number passengers on board, traffic and congestion information). Then, key indexes representing the system performance should be defined (e.g. travel time, dwell time, battery charge level). Methodologies from transportation modelling, simulation and programming (MATLAB) will be used for completing this project.

Solar Decathlon: strategies for a sustainable mobility to achieve the goal of a 2000-Watt society, Charles Albert Jeanbart (Civil Engineering)

Supervision: Riccardo Scarinci, Michel Bierlaire
Solar Decathlon is an international competition that challenges twenty university teams from around the world to build and operate solar-powered houses. This project is part of the EPFL multidisciplinary team of students participating at this competition. The global objective is to transform a regular district in Fribourg into a sustainable eco-district using the solar-powered building as an activator. This building would promote sustainable actions, reduction in energy consumption and soft mobility. This project aims to evaluate the necessary strategies to incentive sustainable mobility inside the district. The goal is to suggest concrete actions that would incentive the modal shift toward more sustainable modes of transport. The effects of these strategies should be quantified and analyzed. The total energy consumed for mobility should respect the limit suggested by the 2000-Watt society. This concept proposes a way of living where nobody consumes more than a continuous 2000 W in comparison with the 6000 W currently consumed in Europe. Knowledge of transportation systems, environmental impacts and strong quantitative analysis skills are required to complete this project. The student will also interact with the other members of the Solar Decathlon competition.

Modeling route choice in Québec using mental representations, Mathieu Plourde

Supervision: Evanthia Kazagli, Matthieu de Lapparent, Michel Bierlaire
In this project, we aim at simplifying the route choice problem by modeling the strategic decisions of people --represented by the mental representations of their itineraries-- instead of the operational ones --represented by paths. We define an abstracted graph based on what we denote mental representation item (MRI) and we derive operational route choice models based on it. A GPS dataset from the city of Quebec is available and will be used for this purpose. Hence, the project is divided in two main parts; the first and technical part which involves data processing, and the second methodological part which involves the development of a model for the MRI network.

Strategic Energy Planning under Uncertainty, Cyprien Say (Civil Engineering)

Supervision: Stefano Moret, Shadi Sharif Azadeh, Michel Bierlaire
The main goal of the project is to classify parameter uncertainty (i.e. defining ranges of variations or probability distribution functions) for the Swiss energy system in the year 2035 and evaluate its impact on energy planning decisions.

2015-2016

Hedonic pricing of car attributes: a comparison across European countries, Anna-Katharina Clodong (Civil Engineering)

Supervision: Matthieu de Lapparent, Anna Fernandez Antolin, Michel Bierlaire
Hedonic pricing is a revealed preference approach that is used for valuation of constituent characteristics of a good or a service. This project aims at pricing car attributes using disaggregate data on car purchases in 5 European countries from 2010 to 2014. Attention will be paid on estimation of market price gradients and willingness-to-pay for engine types, fuel consumption, weight to power ratio, etc., while accounting for heterogenous preferences of consumers and controlling for market segments, changes in quality, and brand effects. The candidate will take a strong interest in nonlinear regression methods, issues in econometric modeling, analysis and preparation of large datasets, and programming.

Specification testing of fundamental diagrams for an anisotropic pedestrian network loading model, Joel Mateus Fonseca (Communication Systems)

Supervision: Flurin Hänseler, Marija Nikolic, Michel Bierlaire

Online estimation of pedestrian origin-destination demand in train stations using Kalman Filtering, Marc Solsona Bernet (Civil Engineering)

Supervision: Flurin Hänseler, Stefan Binder, Michel Bierlaire

Accelerating moving walkways as a transport mode of the future: system optimization and management, Alexandre Petit

Supervision: Riccardo Scarinci, Michel Bierlaire
In a hypothetical future where the use of private cars will be limited in cities, the need for movement will be satisfied by a mix of transport modes such as public transport, cycling, walking and other innovative systems. One of these possible futuristic systems, focus of this project, is an urban network of Accelerating Moving Walkways (AMW), i.e. a moving conveyor system for pedestrian similar to the one used in airports capable to reach speeds up to 15km/h. This project aims to optimize the network design of this innovative transport system of AMWs on the city of Geneva. Given the origin-destination demand, pedestrians are assigned to the city road network in order to obtain route choice and trip distributions. This information is used to identify the optimal configuration of link equipped with AMWs and their capacity. For this, a specifically developed optimization framework is used. Empirical mobility data and the road network (both already available) should be used as input of the optimization framework. Methodologies from mathematical optimisation, traffic assignment, programming (MATLAB) and Geographic Information Systems (GIS) will be used for completing this project.

2015

Development of a novel pedestrian walking model applicable to congested flows, Gael LEDERREY

Supervision: Flurin Hänseler, Marija Nikolic, Michel Bierlaire
We are in the process of developing a novel pedestrian walking model that can describe multi-directional and congested pedestrian flow. Given a certain demand, the model is supposed to predict travel times and density levels as accurately as possible. The basic idea thereby consists in discretizing walkable space into cells and links, and to compute for each link a speed based on an empirical density-speed relation. The goal of this project, which can be carried out as a Bachelor's, semester, or Master's thesis, is (i) to understand and improve the existing mathematical model, (ii) to accordingly update the computational model (written in Java), and (iii) to consider a real-world case study involving either a Swiss railway station, a Dutch bottleneck experiment or a pedestrian crossing in Hong Kong, China. In the long term, this model will be useful for real-time crowd monitoring and control, as well as for infrastructure dimensioning of e.g. a train station. Skills in object-oriented programming and a basic knowledge of statistical mathematics are required; knowledge of parallel computing is a plus. Semester: Spring 2015. If interested, please contact us at {flurin.haenseler,marija.nikolic}@epfl.ch. We're looking forward to hearing from you.

Development of an aggregate route choice model for a big network, Arriagada Diego Alexandre

Supervision: Evanthia Kazagli, Matthieu de Lapparent, Michel Bierlaire
The use of random utility models for route choice analysis involves challenges stemming from the high requirements in data and data processing, the physical overlap of paths, and the large size of the choice set. These factors increase the complexity of the models significantly. In order to simplify the problem, a novel approach based on an aggregate representation of route choices has been proposed. The conventional representation and modeling approach is based on path alternatives constructed as link-by-link sequences on the network. This approach entails a very large number of possible paths connecting a given origin and destination (OD), and high correlation among the alternative paths. In this work, we claim that a path is solely the manifestation of the route choice, i.e. the way the traveler implements her decision to take a specific route, and we replace the paths with aggregate elements that we denote as Mental Representation Items (MRIs). This key feature allows us to reduce the complexity of the model and at the same time is more behaviorally realistic. The aim of this project is to extend this approach and apply it in a big network for which information about congestion is available. A GPS dataset from the city of Quebec is available and will be used for this purpose. Knowledge of statistical mathematics and familiarity with MATLAB and SQL are required. Geographic Information Systems (GIS) software will be used for completing this project.

Pedestrian movement in train stations: modeling speed-density relationship for different classes of passengers, Laure Emma Rosine

Supervision: Marija Nikolic, Riccardo Scarinci, Michel Bierlaire
The increased number of passengers in train stations is causing congestion not only on trains, but also on platforms and underpasses. To better design and manage these infrastructures, pedestrian movement should be understood and modeled accurately. Fundamental Diagram (FD) plays an important role in the representation of pedestrian dynamics. FD models the relationship between density of pedestrians and the speed at which they are able to move. This macroscopic model represents the average behavior and does not take into account differences among pedestrians. They can differ in terms of their purpose of the trip (e.g. business/leisure), personal characteristics (e.g. age, gender), presence of luggage, etc. This heterogeneity can lead to different walking behavior of pedestrians and should be adequately modeled by the FD. This project aims to develop a Multi-Class Fundamental Diagram (MC-FD) assuming the existence of different classes of passengers in a train station. As a case study we will use the Lausanne train station where detailed pedestrian trajectories have been collected. The key elements of the project are: (i) literature review of MC-FD for both pedestrians and vehicles; (ii) development of the modeling assumptions employing empirical, qualitative and sociological considerations; (iii) model specification; (iv) sensitivity analysis, calibration and validation of the proposed model based on empirical data. Knowledge of statistical mathematics and familiarity with programming (MATLAB) are required.

Routing of a mixed fleet of electric and diesel trucks: Analysis of solution approaches, Noortje Verstegen (Computer science)

Supervision: Iliya Markov, Stefan Binder, Michel Bierlaire
A transportation company wants to study the potential benefit of replacing some of the diesel trucks in its fleet with electric ones. Electric and diesel trucks have comparable characteristics in terms of capacity and electric trucks are capable of performing an average daily itinerary on a single charge. The price of an electric truck is higher, while its operating cost is much lower compared to a diesel truck. Therefore, we want to find an intelligent deployment of the mixed fleet so as to minimize cost. The goal is the development of a vehicle routing model and/or heuristic, taking into account the characteristics of the various trucks, including fuel/energy consumption, speed, capacity, compatibilities, working time, service times, etc. The integration of the truck load's impact on fuel/energy consumption and the analysis of battery replacement/recharging strategies could also be considered if time permits. Solution quality can be compared against benchmarks results and data from the state of practice. As a previous semester project, a student has already worked on defining the problem, developing a heuristic algorithm and obtaining some results. The current project is intended to do a deeper analysis and implementation of solution methodologies. This project is appropriate for a student with an interest in operations research and experience in programming (Java preferred). The workload can be adjusted to the number of credits.

Implementation of a futuristic transport system based on accelerated moving walkways: optimization on a real case study, Raphaël Luthi (Environmental Sciences and Engineering)

Supervision: Riccardo Scarinci, Iliya Markov, Michel Bierlaire
In a hypothetical future where the use of private cars will be limited in cities, the need for movement will be satisfied by a mix of transport modes such as public transport, cycling, walking and other innovative systems. One of these possible futuristic systems, focus of this project, is an urban network of Accelerated Moving Walkways (AMWs), i.e. a moving conveyor system for pedestrian similar to the one used in airports. This project aims to apply an optimization framework to identify the optimal network design of this innovative transport system of AMWs on a real case study. Given the origin-destination demand, pedestrians are assigned to a road network in order to have route choice and trip distributions. On this scenario, the optimal configuration of link equipped with AMWs and their capacity is define. For this purpose, a specifically developed optimization framework is used, and it should be applied to a real city. Lausanne presents appropriate transportation and geographical characteristic to be used as a case study. Empirical mobility data and the city network should be used as input of the optimization framework. Methodologies from mathematical optimization, traffic assignment, programming (MATLAB) and Geographic Information Systems (GIS) will be used for completing this project.

2014-2015

Planning tool for the admission of medical graduates into the Otolaryngology training program in the CHUV, Guillaume Lopez

Supervision: Yousef Maknoon, Shadi Sharif Azadeh, Michel Bierlaire

2014

Accounting for attitudes in modeling demand for electric vehicles, Maurin Baillif (Civil Engineering)

Supervision: Matthieu de Lapparent, Anna Fernandez Antolin, Michel Bierlaire
The purpose is to characterize and to model determinants of electric vehicle acceptance and adoption by individuals. Special attention will be paid to additional integration of attitudinal drivers and barriers to adherence to such technology. It aims at understanding how consumers accept the financial and lifestyle investments associated with the leap from traditional to electric powertrains, focusing on battery electric (BEV) and plug-in hybrid electric (PHEV) vehicles. To this extent, the 2012 Renault-Nissan Alliance survey on electric vehicles will be used. Data are collected over 5 European countries: France, Italy, Germany, Spain, UK. It focuses on current owners of a car bought new between 6 months and 5 years ago and who intend to buy a new car in the next 5 years. State-of-the-art and extended discrete choice models will be developed to account for formation of latent processes and existence of endogeneity issues.

3D routing approach for air navigation planning for small sized planes, Jamal El Rhazi (Civil Engineering)

Supervision: Shadi Sharif Azadeh, Michel Bierlaire, Stefan Binder
This projects aims to study and visualize the aviation data using factors such as, geographical information of the plane as well as weather condition for a flight most specifically during cruise phase. MATLAB is a powerful software with high quality of visualization of data, however, when the size of data gets bigger, the performance of MATLAB degrades and it becomes slower. Recently, some new software such as, Tableau has been introduced that provide powerful tools to visualize the big data.

Routing of a mixed fleet of electric and internal combustion trucks, Thomas Cibils (Management of Technology and Financial Engineering)

Supervision: Iliya Markov, Stefan Binder, Michel Bierlaire
A transportation company has introduced a number of electric trucks into their current fleet of internal combustion trucks. Electric and internal combustion trucks have similar characteristics in terms of capacity and electric trucks are capable of performing an average daily itinerary on a single charge. The goal is the development of a vehicle routing model and heuristic, taking into account the characteristics of the various trucks, including fuel/energy consumption, speed, capacity, compatibilities, working time, service times, etc. Various objectives could be considered and analyzed, such as the minimization of time, energy consumption and cost. The integration of the truck load's impact on fuel/energy consumption and the analysis of battery replacement/recharging strategies could also be considered if time permits. Data is available for benchmarking with the state of practice and assessing the heuristic's performance against the mathematical model. This project is appropriate for a student with an interest in operations research (mixed integer linear programming), some experience with mathematical programming languages (e.g. AMPL or CPLEX OPL) and good programming skills (e.g. C++, Java or Matlab).

Development and Implementation of a Decision Making Tool in Quality Control Networks using Quantitative System Modeling Techniques, Pierre Jullien de Pommerol (Civil Engineering)

Supervision: Michel Bierlaire
In an increasingly complex business environment, managers have to grapple with problems and issues, which range from relatively trivial to the strategic. This project proposes to develop and implement a decision making tool to optimize quality control networks. To do so, several metaheuristics will be used as an efficient approach to improve global value chains towards lean manufacturing applied to a production process of Nestle. The control mechanism of each control point determines the conformity (or non-conformity) of the product in the supply chain defining a sample randomly chosen units and indicating the maximum number of bad units for each batch to pass control points. As control points become decision variables, the detailed examination of control mechanisms at each control point requires the use of nonlinear algorithms. The following decision variables have to be optimized in the considered networks: (1) determine the set of control points; (2) determine the control plan parameters of each control point. That point requires understanding basics of statistical quality control. The objective function contains a performance and a risk component, and a budget constraint has to be satisfied. The following metaheuristics will at least be investigated: tabu search, variable neighborhood search and adaptive memory algorithms. In addition, an exact method relying on CPLEX should be compared to the proposed metaheuristics.

A two-step approach for estimating pedestrian demand in a congested network, Eduard Rojas (Computer science)

Supervision: Flurin Hänseler, Antonin Danalet, Michel Bierlaire

Train Management in SNCF Application, Cao Huu-Ân (Computational science and engineering)

Supervision: Tomás Robenek, Stefan Binder, Michel Bierlaire

Optimisation of the network design of a futuristic transport system based on moving walkways, Guillaume Lopez

Supervision: Riccardo Scarinci, Jianghang Chen, Michel Bierlaire
In a hypothetical future where the use of private cars will be limited in cities, the need of movement will be satisfied by a mix of transport modes like public transport, cycling, walking and other innovative systems. One of these possible futuristic systems, focus of this project, is an urban network of moving walkways, i.e. a moving conveyor system for pedestrian like the one used in airports. This project aims to study and optimize the network design of this innovative transport system of moving walkways, exploring various network configuration and system characteristics to understand which specification could satisfy at best the increased demand. Given the origin destination demand and trip distribution, the variables of the optimization problem should be defined such that indexes of performance, e.g. overall traveling time and cost, are minimized. Example of design variables for this innovative transport system are: number of links to be equipped with moving walkways, moving pathway speed and system capacity that can be related to energy consumption and construction cost. Methodologies from mathematical optimization, transport network design, simulation and scripting will be used for complete this project.

2013-2014

Demand/supply coupling in pedestrian traffic estimation, Jérémy Rabasco (Computational science and engineering)

Supervision: Flurin Hänseler, Michel Bierlaire
The main purpose of this paper is to show a mathematical framework for solving the fixed-point arising in joint demand estimation / traffic assignment problems. As a case study. a congested corridor with known outflow is considered, for which the inflows is predicted using the developed framework. The model is based on a coupling between the travel demand and the network supply (the infrastructure available) in an analogous way as what is done in economics.

Implementation of Tabu Search in Quality Control Networks, Pierre Jullien de Pomerol (Civil Engineering)

Supervision: Michel Bierlaire
This project proposes to optimize quality control networks using the tabu search algorithm as a novel solution to improve global supply chains towards lean manufacturing applied to the Nestle chocolate supply chain. The control mechanism of each control point determines the conformity (or non-conformity)) of the product in the supply chain defining a sample of randomly chosen units and indicating the maximum number of bad units for each batch to pass a control point. As control points become decision variables, the detailed examination of control mechanisms at each control point require the use of non-linear algorithms. In a first phase, control points as decision variables necessitate the examination and identification of (sub)optimal control mechanisms. This is followed by the proposition of a first model using the tabu search algorithm. This model will demonstrate links among suboptimal solutions, but also synergies among risk, performance and budget distribution in quality control networks. In order to efficiently allocate quality control network resources, this project proposes to globally optimize the control mechanism for equi-distribution of risk, performance and budget using the tabu search algorithm.

Optimisation des tournées de ramassage des employés de l'aéroport de Genève (Pre-Project), Isabel Tovar (Civil Engineering)

Supervision: Tomás Robenek, Stefan Binder, Michel Bierlaire

Identify User’s Locations of Interest from Smartphone WiFi Data, Amélie Buisson (GC) (Civil Engineering)

Supervision: Evanthia Kazagli, Antonin Danalet, Michel Bierlaire
Smartphone is a powerful and convenient tool for collecting a variety of data (location, social interaction, and more) that can be useful for individual mobility analysis. Most of the ongoing research relies on GPS to acquire accurate location. GPS though is expensive in terms of battery consumption. In addition, the GPS sensor embedded in mobile phones fail in practice more often than dedicated GPS devices. Yet, smartphones are endowed with multiple sensors from which location can be inferred. Wifi sensors provide stable indoor location data and have been identified as a potential alter- native to indicate location that can well serve in addition and complementary to GPS data to advance mobility learning. The location extraction from Wi-fi records permits the detection of users� regular places of visit, the frequency and intensity (number of times) of visiting these places, as well as patterns such as the time of day and duration of visit. This kind of information is relevant for the identification of activity locations making use of clustering techniques, and after further analysis they can support measuring the activity space and intensity of activity participation of the user. By fusing the information about activity locations with land use and points of interest (POI) data, as well as with more data acquired from the smartphone sensors (e.g. phone status, Bluetooth, charging, phone interaction etc.), and taking into account temporal dimensions, it is then possible to infer the type of activity at these location (including home and work locations) and subsequently trip/ activity purposes can be disclosed. In addition to the above, and building on the identification of meaningful clusters, WiFi data have the potential to assist the identification of origins and destinations of trips (often missing in case of GPS). This information can then be used for improving and validating trip detection algorithms, which currently appear to be problematic and hence introduce biases in the subsequent stage of map-matching (e.g. one a known trip is segmented in several due to the limitations of the algorithm and GPS data). This project aims at exploiting the advantages of the WiFi data discussed above for individual mobility analysis.

2013

Optimisation des transports scolaires à Grandson II, Franka Tholen (Mathematics)

Supervision: Michel Bierlaire, Tomás Robenek, Bilge Atasoy
Analyser les probl�matiques, actuelles et futures, et proposer des solutions d'am�lioration d�coulant de l'organisation et de la gestion de l'ensemble des transports n�cessaires � la bonne marche du groupement et de l'arrondissement scolaire de Grandson (18 communes, 1'350 �l�ves, 70 classes, 12 sites scolaires). Ces probl�matiques r�sultent principalement d'une augmentation significative des co�ts li�s � l'introduction de la communaut� tarifaire vaudoise (Mobilis), de contraintes li�es � l'entr�e en vigueur d'HarmoS, des projets de constructions de l'association intercommunal, de l'�volution du r�seau r�gional des transports voire �galement des synergies � d�velopper avec le milieu parascolaire.

Optimization of Paris' Metro System, Thomas Cibils (Mathematics)

Supervision: Tomás Robenek, Jianghang Chen, Michel Bierlaire
The Metrolab (a joint venture between RATP (R�gie Autonome des Transports Parisiens) and Alstom) would like to conduct analysis of their current metro system in terms of metro schedules and pedestrian congestion in the stations. The aim of this project is to use optimization techniques to design more flexible dynamic timetables and partially to handle the pedestrian congestion in the stations. This project will be offered only for spring semester 2013.

2012-2013

Job Shop Scheduling in a Medical Parts Production Factory, Nathan Scheinmann (Mathematics)

Supervision: Michel Bierlaire, Nitish Umang

Robustness and recovery in airline scheduling , Jonathan Blaiberg (Civil Engineering)

Supervision: Michel Bierlaire, Bilge Atasoy

Process Optimization and School Schedules: New Legistlation, New Constraints, Ailin Zhang (Mathematics)

Supervision: Michel Bierlaire, Nitish Umang

Optimisation des transports scolaires à Grandson I, Clement Massart (Mathematics)

Supervision: Tomás Robenek, Bilge Atasoy, Michel Bierlaire
Analyser les probl�matiques, actuelles et futures, et proposer des solutions d'am�lioration d�coulant de l'organisation et de la gestion de l'ensemble des transports n�cessaires � la bonne marche du groupement et de l'arrondissement scolaire de Grandson (18 communes, 1'350 �l�ves, 70 classes, 12 sites scolaires). Ces probl�matiques r�sultent principalement d'une augmentation significative des co�ts li�s � l'introduction de la communaut� tarifaire vaudoise (Mobilis), de contraintes li�es � l'entr�e en vigueur d'HarmoS, des projets de constructions de l'association intercommunal, de l'�volution du r�seau r�gional des transports voire �galement des synergies � d�velopper avec le milieu parascolaire.

2011-2012

Optimizing Security Staff Operations at Geneva Airport, MAHMOUD KHAROUF

Supervision: Michel Bierlaire, Prem Kumar, Nitish Umang
Geneva airport is the second largest airport in Switzerland. Airport is capable of easily handling 80-100 landings and take-offs per hour. However one of the major bottlenecks today is the passenger handling capacity. The airport terminal area can handle up to 3000 passengers per hour. In recent times, passenger congestion is frequently building up at the airport. Because of the geographical reasons, it is not easy to expand the terminal building. As a result, it may be fruitful to attempt reducing congestion by efficient handling of the passengers and not letting the passengers wait too long to be serviced. Security screening is the most important area for departing passengers. Optimizing the operating costs for security personnel at airports is a complex problem due to a number of reasons. Each passenger and their corresponding hand baggage need to undergo security screening before entering the boarding gates. Even though the passengers and the baggage need to move together, the rate of service for the two can be vastly different. Security personnel work over specific shift times and need to be provided with suitable meal breaks. Staff members can work full-time or part-time, with a minimum of four hours per day. Passenger arrival pattern at an airport can be extremely uneven. Flight activities also tend to be non-uniform while passenger service expectations and staffing inflexibilities due to shift durations can make the problem even more complex. In this work, we would use the flight schedule and service criteria to develop a method to find optimal shift timings and the mix of full-time and part-time workers such that the overall costs are minimized and the service criteria conditions are fulfilled. Term Project (Master Project Pre-Study) Deliverables � Determine global parameters for passenger arrival rates, service times and shift times at different times of the day and days of the week for both passengers and baggages � Develop and implement a cost optimization MIP model with discrete time intervals Masters Project Deliverables � Adapt the deterministic linear model to account for non-linear passenger arrival and service rates and implement the same � Build a robust optimization model to capture vastly varying arrival and service rates. Determine the various ways to capture model stability with special emphasis on recoverability � Perform sensitivity analysis and compare the results of the stochastic model with simulation � Use the results to make recommendations: For example, create a separate queue or sub-queue for passengers without baggage, or passengers whose flights depart in 20 mins should be brought ahead of the queue, etc. � Develop and implement the model for staff rostering at the security screening Apart from expertise in modeling, the student is expected to be able to implement his model and write his own codes in a standard programming language, such as C or C++ Desired Masters Project Deliverables � Evaluate the tendency for staff to take leaves (including sick leaves) and vacation (subject to data availability) � Plan for contingencies in your model Project Organization The student would be expected to update us on the progress and revert to us for queries on a pre-decided day of the week. The student would be expected to update us on the progress and revert to us for queries on a pre-decided day of the week. A midterm presentation would be scheduled on Thursday, 10.11.2011. At the completion of the term project, a report will be delivered (both in paper as well as electronic form) before the 13.01.2012. The final oral presentation for the term project will be scheduled on 11.01.2012. Similarly, the Masters project would be due before the 01.06.2012 while the oral presentation for Masters project will be scheduled between 18.06.2012 and 29.06.2012 or a mutually convenient and agreed date. All the files, programs, codes, data and report associated with the project must be delivered before these date. All reports will be submitted in two copies to TRANSP-OR Lab and GVA Airport. References � Dowling, D., Krishnamoorthy, M., Mackenzie, H., and Sier, D. (1997). Staff rostering at a large international airport. Annals of Operations Research, 72:125-147. � Ernst, A., Jiang, H., Krishnamoorthy, M., and Sier, D. (2004). Staff scheduling and rostering: A review of applications, methods and models. European journal of operational research, 153(1):3-27. � Gilliam, R. (1979). An application of queueing theory to airport passenger security screening. Interfaces, 9(4):117-123.

Robustness and Recovery in Berth Allocation Problem, Wei Li (Management of Technology and Financial Engineering)

Supervision: Michel Bierlaire, Nitish Umang

Optimizing Train Design in Capacitated Railroads, Stefan Binder

Supervision: Michel Bierlaire, Prem Kumar
The problems of Train Design, Railroad Blocking and Train Assignment are fairly complex and often observed in the railroad industry. Efficient solution methods to these problems bring a huge potential to achieve enhanced operational performance and dramatically reduced costs. Blocking is defined as an activity where a set of shipments arriving at or commencing from a certain node station and departing to another particular node station, or further, are grouped together and sent across as the same train to minimize costs and exploit economies of scale. This problem has marked similarities with the airline scheduling which operates flights across a predetermined hub and spoke network. The problem considered here not only necessitates determining the �right� hubs and �right� trains to be scheduled on the network, but also scheduling the shipments on appropriate trains between the hub station yards and spoke station yards so that the overall costs are minimized. In the problem considered by us, we are given a network comprising a set of nodes and arcs. We are also given a set of shipments with their origin and destination nodes. We are given a range of costs such as the cost of car travel per mile, cost of train travel per mile, cost of starting a train, cost of grouping (also referred to as classifying or blocking) shipments at an intermediate station of a train, cost of train imbalance, cost of crew imbalance and the cost of a missed car that is not transported. It is also required that each train path overlaps one or more crew segments completely. Crew segment between two nodes will also always follow the shortest path between those two nodes. Thus a train cannot run on a section which is not on the path of a crew. Train imbalance is defined as the imbalance generated due to the fact that the number of outgoing and incoming trains at a node differ. Total train imbalance for the network is computed as the sum of imbalances at every node. Crew imbalance is generated due to the fact that a crew operates on a segment, but cannot find an operational train to return to their base. In addition to these considerations, there are specific requirements relating to the maximum number of trains that a shipment can travel on, the maximum number of blocking (or classifications or work events � as referred in the problem statement) allowed for each train, the maximum number of trains allowed on any arc and the limitation on the maximum train length and tonnage. The main objective of our efforts would be to find a cost minimizing set of feasible trains that operate on one or multiple crew segments completely. We would also need to determine the least cost assignment of shipments to these trains. Term Project Deliverables � Develop and implement a cost optimization single or multi-stage mixed integer program model � Solve the model using a mix of relaxations and heuristics and report results on two data sets � Prepare a comprehensive report on solution methods and future research tracks on this problem Apart from expertise in modeling, the student is expected to be able to implement his model and write his own codes in a standard programming language, such as Java or C# Project Organization The student would be expected to update us on the progress and revert to us for queries on a pre-decided day of the week. A midterm presentation would be scheduled on Thursday, 10.11.2011. At the completion of the term project, a report will be delivered (both in paper as well as electronic form) before the 13.01.2012. The final oral presentation for the term project will be scheduled on 11.01.2012. All the files, programs, codes, data and report associated with the project must be delivered before these date. All reports will be submitted in five copies to TRANSP-OR Lab, LUTS Lab, Dr. Prem Kumar and Mr. Burak Boyaci. One copy is for the student.

2010-2011

Travel behavior models: an Abu Dhabi case study, Laurène Aigrain (Civil Engineering)

Supervision: Michel Bierlaire, Jingmin Chen
In this project, the student aims at studying the state-of-the-art demand modeling method- ologies in the transportation field. She will learn discrete choice models, and relevant tech- niques, such as simulation, and apply them in the study of mode choice and/or driving behavior. An Abu Dhabi case study will be carried out.

2009-2010

Testing the algorithm for generating path observation from GPS data, Jensen Anders Fjendbo (Civil Engineering)

Supervision: Michel Bierlaire, Jingmin Chen
This project aims at using and testing an innovative probabilistic path observation generation algorithm on location data and comparing against state-of-the-art map matching algorithms.

2008-2009

Expérience des moyens de transport et choix modal, Seyed Tavakoli (Civil Engineering)

Supervision: Michel Bierlaire, Thomas Robin
Lorsque l�on choisit d�utiliser un moyen de transport plut�t qu�un autre, ind�pendamment des temps de d�placements et des co�ts compar�s des alternatives en pr�sence, l�usager a des pr�f�rences. Celles-ci sont li�es � son exp�rience des moyens de transport et � la perception qu�il en a. Les mod�lisations du choix modal ne rendent qu�imparfaitement compte de cette dimension, intrins�quement qualitative. Pour la traiter, le LaSUR a d�velopp� depuis une dizaine d�ann�es un dispositif de citation d�adjectifs, appliqu� � de gros �chantillons de population lors d�enqu�tes de mobilit�. Nous proposons comme sujet de Master de mod�liser sur la base des donn�es disponibles, l�impact de l�exp�rience sensorielle des moyens de transports sur le choix modal.

Implementation of attribute processing strategies in advanced discrete choice models, Carol Kirchhofer (Mathematics)

Supervision: Michel Bierlaire

Extending the framework for MEV discrete choice models, Lorenza Santini (Mathematics)

Supervision: Michel Bierlaire

Is it possible to reduce the number of panelists in a TDS (Temporal Dominance of Sensations) study without altering the quality of the results?, Aurélie Glérum (Mathematics)

Supervision: Thomas Robin, Michel Bierlaire, Michaël Thémans

2008

Dynamic Traffic Assignment in Lausanne, Vidaud Marine (Civil Engineering)

Supervision: Michel Bierlaire
Dynameq is a new breed of equilibrium dynamic traffic assignment (DTA) for use on large, congested networks, distributed by INRO (www.inro.ca). Dynameq gives planners a view into dynamic traffic conditions, and provides rational scenario comparisons that are only possible with an equilibrium-based solution. It has been successfully used in cities like Montr�al. The purpose of the project is to develop a Dynameq model of Lausanne. The challenge consist in gathering relevant available data, and identify additionnal data which would need to be collected. The objective is to obtain a prototype model for which the missing pieces are well identified. The project will be conducted at the Centre de Recherche sur les Transports (University of Montr�al), in close collaboration with the staff of INRO.

Development of mode choice models in Trieste, Violin Alessia (Mathematics)

Supervision: Michel Bierlaire
The discrete choice models are very relevant concerning the transport mode choice. A survey on the daily trips has been conducted in Trieste, Italy, in 2000-2001, led by the municipality. The study of the resultant data base will permit to understand the Triestan�s habits, along with developing transport mode choice models. The aim of this project is to analyse real data (the dataset described above), perform a complete modelling process, together with statistical tests, and prepare appropriate documentation.

2007-2008

Dynamic Traffic Assignment in Lausanne (préétude), Vidaud Marine (Civil Engineering)

Supervision: Michel Bierlaire, Jean-Pierre Leyvraz
Le logiciel Emme permet de comparer des variantes de r�seaux routiers urbains en se basant sur une affectation des d�placements des automobilistes de leur origine � leur destination. Cette affectation est macroscopique (on consid�re des flux globaux de d�placements) et statique (les conditions d��coulement sont cens�es �tre constantes durant toute la p�riode consid�r�e). D�autres mod�les comme Dynameq et AIMSUN se basent sur une affectation microscopique (chaque v�hicule est mod�lis�) et dynamique (les conditions peuvent changer au cours du temps). Ces mod�les demandent plus de donn�es, mais permettent en �change d��valuer des mesures comme des changements dans la gestion des carrefours et de repr�senter l��volution au cours du temps. L�agglom�ration lausannoise dispose d�une banque de donn�es Emme et, pour sa partie la plus centrale, d�une banque AIMSUN. Le projet de master, qui se d�roulera chez INRO � Montr�al, consiste � cr�er � partir de ces donn�es et �ventuellement d�autres donn�es disponibles, une banque de donn�es Dynameq, de documenter le processus utilis� et d�identifier les donn�es suppl�mentaires n�cessaires pour am�liorer la qualit� de cette banque.

Modèle de classes latentes en analyse de choix discret, Kirchhofer Carol (Mathematics)

Supervision: Michel Bierlaire
Le but de ce projet est de s'initier � l'analyse des mod�les de choix de classes latentes et leurs application sur des donn�es r�elles en vue de pr�paration d'un projet de master concernant le choix de billets d'avion.

Modèles GEV et MEV, Santini Lorenza (Mathematics)

Supervision: Michel Bierlaire
Les mod�les de choix discrets ont �t� pr�dominants dans l'analyse de transport durant ces derni�res ann�es. Le mod�le MNL(Multinomial Logit) est particuli�rement appr�ci� gr�ce � ses capacit�s calculatoires et sa forme analytique. Il est obtenu� partir de la loi de Gumbel, appel�e aussi loi des valeurs extr�mes de type I. D'une part, une version multivari�e (MEV) a �t� propos� par McFadden (1978). D'autre part, diff�rentes lois monovari�es aux valeurs extr�mes peuvent �tre rassembl�es en utilisant la sp�cification dite g�n�alis�e (GEV). Le but de ce projet est d'une part de ma�triser les concepts li�s aux mod�es MEV (Mul- tivariate Extreme Value) et GEV, afin d'investiguer la possibilit� de combiner les deux. D'autre part, les mod�eles d'utilit� multiplicatifs (Fosgerau & Bierlaire 2007) permettent de faire un lien avec les mod�les GEV ( Fosgerau, short note). Ce lien sera aussi investigu�, en vue de la r�alisation d'un projet de master li� � ce sujet avec Mogens Fosgerau � Copenhague.

2007

Etude du comportement d'achat des consommateurs, Alexandre Xavier (Mathematics)

Supervision: Michel Bierlaire
Le comportement des consommateurs durant la d�marche d'achat est un ph�nom�ne compliqu� et propre � chaque personne, qui regroupe des param�tres observables, comme le choix final, et des composants latents, comme p. ex. le raisonnement avant ce choix. La mod�lisation de l'impact de marketing cibl� (via design des panneaux publicitaires) est du plus grand int�r�t pour la compr�hension de ce comportement. Le but de ce projet est d'unifier les donn�es venant des sources diff�rentes et d'am�liorer le mod�le de la d�marche compl�te d'achat bas� sur les donn�es d'une �tude r�elle de tra�age des yeux.

2006-2007

Modèles de choix discret pour la reconnaissance des expressions faciales statiques, Danalet Antonin (Mathematics)

Supervision: Michel Bierlaire

nan-2006

Detection of behavioral inconsistency in Revealed Preferences surveys , Laurence de Torrenté and Ariane Wenger (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

nan-2005

Detection of behavioral inconsistency in Revealed Preferences surveys , Julie Marc (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

Discrete choice models: development of case studies, Frédéric Anken (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

Different strategies for trust-region size management, Emmanuel Leclercq (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

Stated Preferences Survey for the choice of exchange university, Eric Von Aarburg (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

nan-2004

Calibration of models for transportation demand in the context of real-time applications, Mohamed Rhmari Tlemçani (Communication Systems)

Supervision: Michaël Thémans, Michel Bierlaire

Adaptation of GSM for unconstrained nonlinear optimization, Anouck Brossard and Sarah Degallier (Mathematics)

Supervision: Michaël Thémans, Frank Crittin, Michel Bierlaire

On the convergence of multi-dimensional filter methods, Lionel Dumartheray (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

Dynamic O-D matrices estimation with iGSM, Olivier Grandjean (Mathematics)

Supervision: Frank Crittin, Michaël Thémans, Michel Bierlaire

nan-2003

Testing GSM on unconstrained nonlinear optimization problems, Mina Adel Latif (Communication Systems)

Supervision: Michaël Thémans, Frank Crittin, Michel Bierlaire

Discrete choice models to capture drivers behavior in response to real-time traffic information, Thomas Quentin Maillard (Mathematics)

Supervision: Michaël Thémans, Michel Bierlaire

Empirical analysis of the correlation in discrete choice models, Steve Salom (Communication Systems)

Supervision: Michaël Thémans, Michel Bierlaire

nan-nan

Activity organization and ICT, Laetitia Bettex (Civil Engineering)

Supervision: Michel Bierlaire
Selon indications ult�rieures.

Optimisation de tournées de collecte et de distribution de linges industriels,

Supervision: Michel Bierlaire
Une entreprise, leader romand, sp�cialis�e dans le lavage de linges industriels (h�pitaux, homes, h�tellerie, restaurants, industries, ...) d�sire optimiser ces tourn�es de collecte de linge sale et de distribution de linge propre. Il s'agira ainsi d'�tudier la logique et la complexit� des processus, et proposer un algorithme qui doit permettre d'optimiser ces tourn�es et le plan de chargement des camions en fonction de contraintes multiples. Selon les r�sultats de ce travail, la direction de l'entreprise est ouverte � toute proposition de modifications de sa strat�gie ou/et de ses processus industriels et logistiques.