Abstract
The vehicle scheduling problem, arising in public transport bus companies, addresses the task of assigning buses to cover a given set of timetabled trips. It considers additional requirements, such as multiple depots for vehicles and vehicle type groups for timetabled trips as well as depot capacities. An optimal schedule is characterized by minimal fleet size and minimal operational costs including costs for unloaded trips and idle time spent outside the depot. This paper discusses the multi-depot, multi-vehicle-type bus scheduling problem for timetabled trips organized in bus lines. We use time-space-based networks for problem modeling. The cost-optimal vehicle schedule may involve several line changes for a given bus within a working day which might not be desirable from the practical point of view. Some bus companies prefer to pose a restriction for bus line changes as well. Because the network flow based model works with trips and not lines, it does not explicitly take into account line changes. In this contribution, we discuss several methods to find schedules with an acceptable number of line changes.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Bertossi, A., Carraresi, P., and Gallo, G. (1987). On some matching problems arising in vehicle scheduling models. Networks, 17, 271–281.
Daduna, J. R. and Paixão, J. M. P. (1995). Vehicle scheduling for public mass transit — an overview. In J. R. Daduna, I. Branco and J.M.P. Paixão, editors, Computer-Aided Transit Scheduling, Lecture Notes in Economics and Mathematical Systems 430, pages 76–90. Springer, Berlin.
Forbes, M., Hotts, J., and Watts, A. (1994). An exact algorithm for multiple depot vehicle scheduling. European Journal of Operational Research, 72, 115–124.
Hane, C., Barnhart, C., Johnson, E., Marsten, R., Nemhauser, G., and Sigismondi, G. (1995). The fleet assignment problem: Solving a large integer program. Mathematical Programming, 70(2), 211–232.
ILOG (2003). Cplex v8.0 User’s Manual. ILOG, Gentilly, France.
Kliewer, N., Mellouli, T., and Suhl, L. (2002). A new solution model for multidepot multi-vehicle-type vehicle scheduling in (sub)urban public transport. In Proceedings of the 13th Mini-EURO Conference and the 9th meeting of the EURO working group on transportation, Politechnic of Bari.
Kliewer, N., Mellouli, T., and Suhl, L. (2006). A time-space network based exact optimization model for multi-depot bus scheduling. European Journal of Operational Research, 175, 1616–1627.
Löbel, A. (1999). Solving large-scale multiple-depot vehicle scheduling problems. In N. Wilson, editor, Computer-Aided Transit Scheduling, pages 193–220. Springer, Berlin.
Ribeiro, C. and Soumis, F. (1994). A column generation approach to the multiple-depot vehicle scheduling problem. Operations Research, 42, 41–52.
Suhl, U. (2000). Mops — mathematical optimization system. OR News, 8, 11–16.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2008 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Kliewer, N., Gintner, V., Suhl, L. (2008). Line Change Considerations Within a Time-Space Network Based Multi-Depot Bus Scheduling Model. In: Hickman, M., Mirchandani, P., Voß, S. (eds) Computer-aided Systems in Public Transport. Lecture Notes in Economics and Mathematical Systems, vol 600. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-73312-6_4
Download citation
DOI: https://doi.org/10.1007/978-3-540-73312-6_4
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-73311-9
Online ISBN: 978-3-540-73312-6
eBook Packages: EngineeringEngineering (R0)