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Fare Evasion in Transit Networks

Author

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  • José Correa

    (Departamento de Ingeniería Industrial, Universidad de Chile, Santiago, Chile)

  • Tobias Harks

    (Institut für Mathematik, Universität Augsburg, 86159 Augsburg, Germany)

  • Vincent J. C. Kreuzen

    (School of Business and Economics, Maastricht University, 6211 LK, Maastricht, The Netherlands)

  • Jannik Matuschke

    (TUM School of Management, Technische Universität München, 80333 München, Germany)

Abstract

Public transit systems in major urban areas usually operate under deficits and therefore require significant subsidies. An important cause of this deficit, particularly in the developing world, is the high fare evasion rate mainly due to an ineffective control policy or the lack of it. In this paper we study new models for optimizing fare inspection strategies in transit networks based on bilevel programming. In the first level, the leader (the network operator) determines probabilities for inspecting passengers at different locations, while in the second level, the followers (the fare-evading passengers) respond by optimizing their routes given the inspection probabilities and travel times. To model the followers’ behavior we study both a nonadaptive variant, in which passengers select a path a priori and continue along it throughout their journey, and an adaptive variant, in which they gain information along the way and use it to update their route. For these problems, which are interesting in their own right, we design exact and approximation algorithms, and we prove a tight bound of 3/4 on the ratio of the optimal cost between adaptive and nonadaptive strategies. For the leader’s optimization problem, we study a fixed-fare and a flexible-fare variant, where ticket prices may or may not be set at the operator’s will. For the latter variant, we design an LP-based approximation algorithm. Finally, employing a local search procedure that shifts inspection probabilities within an initially determined support set, we perform an extensive computational study for all variants of the problem on instances of the Dutch railway and the Amsterdam subway network. This study reveals that our solutions are within 5% of theoretical upper bounds drawn from the LP relaxation. We also derive exact nonlinear programming formulations for all variants of the leader’s problem and use them to obtain exact solutions for small instance sizes.

Suggested Citation

  • José Correa & Tobias Harks & Vincent J. C. Kreuzen & Jannik Matuschke, 2017. "Fare Evasion in Transit Networks," Operations Research, INFORMS, vol. 65(1), pages 165-183, February.
    • Handle: RePEc:inm:oropre:v:65:y:2018:i:1:p:165-183
    DOI: 10.287/opre.2016.1560
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    References listed on IDEAS

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    Cited by:

    1. Oscar Egu & Patrick Bonnel, 2020. "Can we estimate accurately fare evasion without a survey? Results from a data comparison approach in Lyon using fare collection data, fare inspection data and counting data," Public Transport, Springer, vol. 12(1), pages 1-26, March.
    2. Boyd, Colin, 2020. "Revisiting the foundations of fare evasion research," Transportation Research Part A: Policy and Practice, Elsevier, vol. 137(C), pages 313-324.
    3. Guzman, Luis A. & Arellana, Julian & Camargo, José Pablo, 2021. "A hybrid discrete choice model to understand the effect of public policy on fare evasion discouragement in Bogotá's Bus Rapid Transit," Transportation Research Part A: Policy and Practice, Elsevier, vol. 151(C), pages 140-153.
    4. Munizaga, Marcela A. & Gschwender, Antonio & Gallegos, Nestor, 2020. "Fare evasion correction for smartcard-based origin-destination matrices," Transportation Research Part A: Policy and Practice, Elsevier, vol. 141(C), pages 307-322.
    5. Louise Sträuli & Wojciech Kębłowski, 2023. "‘The gates of paradise are open’: Contesting and producing publicness in the Brussels metro through fare evasion," Urban Studies, Urban Studies Journal Limited, vol. 60(15), pages 3126-3142, November.
    6. Guzmán, Cristóbal & Riffo, Javiera & Telha, Claudio & Van Vyve, Mathieu, 2022. "A sequential Stackelberg game for dynamic inspection problems," European Journal of Operational Research, Elsevier, vol. 302(2), pages 727-739.
    7. Elmar Wilhelm M. Fürst & David M. Herold, 2018. "Fare Evasion and Ticket Forgery in Public Transport: Insights from Germany, Austria and Switzerland," Societies, MDPI, vol. 8(4), pages 1-16, October.
    8. Brotcorne, L. & Escalona, P. & Fortz, B. & Labbé, M., 2021. "Fare inspection patrols scheduling in transit systems using a Stackelberg game approach," Transportation Research Part B: Methodological, Elsevier, vol. 154(C), pages 1-20.

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    Keywords

    transit networks; bilevel optimization;

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