Tomáš Robenek scite author profile

The aim of this paper is to analyze and to improve the current planning process of the passenger railway service in light of the recent railway market changes. In order to do so, we introduce the Passenger Centric Train Timetabling Problem. The originality of our approach is that we account for the passenger satisfaction in the design of the timetable. We consider both types of timetable(s): cyclic and non-cyclic. The problem is modeled as a Mixed Integer Linear Programming (MILP) problem with an objective of maximizing the train operating company's profit while maintaining ε level of passenger satisfaction. By solving the model for various values of ε, the Pareto frontier is constructed. The analysis, based on an experiment using realistic data, shows that an improvement of passenger satisfaction while maintaining a low profit loss for the railway company can be achieved. A sensitivity analysis on passenger congestion illustrates a quantitative evidence that the non-cyclic timetables can account better for high density demand in comparison to cyclic timetables.

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A branch-and-price algorithm to solve the integrated berth allocation and yard assignment problem in bulk ports

Robenek

Umang

Bierlaire

et al. 2014

European Journal of Operational Research

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Hybrid cyclicity: Combining the benefits of cyclic and non-cyclic timetables

Robenek

Azadeh

Maknoon

et al. 2017

Transportation Research Part C: Emerging Technologies

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Train timetable design under elastic passenger demand

Robenek

Azadeh

Maknoon

et al. 2018

Transportation Research Part B: Methodological

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A passenger centric timetable is such a timetable that the satisfaction of the passengers is maximized. However, these timetables only maximize the probability of a passenger to take the train, but provide no insight on the actual choices of the passengers. Therefore, in this manuscript we replace the deterministic passenger satisfaction function with a probabilistic demand forecasting model inside of the passenger centric train timetable design. The actual forecasts lead to a realistic train occupation. Knowing the train occupation, we can estimate the revenue and to use pricing as a mobility management to further improve the level-of-service. We use a logit model that we calibrate to reflect the known demand elasticities. We further include a competing operator as an opt-out option for the passengers. Subsequently, we integrate the passenger centric train timetabling problem with a ticket pricing problem. We solve the elastic passenger centric train timetabling problem for various types of timetables using a simulated annealing heuristic on a case study of Israeli Railways. The results of our case study show that the generated revenues can be increased by up to 15% when taking into account the passengers' behavior along with a specific pricing scheme. This study further confirms the advantages of hybrid cyclicity.

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Behaviorally Driven Train Timetable Design

Robenek¹

2016

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Tomáš Robenek

Passenger centric train timetabling problem

A branch-and-price algorithm to solve the integrated berth allocation and yard assignment problem in bulk ports

Hybrid cyclicity: Combining the benefits of cyclic and non-cyclic timetables

Train timetable design under elastic passenger demand

Behaviorally Driven Train Timetable Design

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