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1

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When Periodic Timetables are Suboptimal (2008)

Borndörfer, Ralf ; Liebchen, Christian

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Publication Date: 2020-11-16

Language: English

Type: conferenceobject , doc-type:conferenceObject

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The Second Chvatal Closure Can Yield Better Railway Timetables (2008)

Liebchen, Christian ; Swarat, Elmar

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Publication Date: 2020-11-16

Language: English

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3

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A Simple Way to Compute the Number of Vehicles That Are Required to Operate a Periodic Timetable (2018)

Borndörfer, Ralf ; Karbstein, Marika ; Liebchen, Christian ; [et al.]

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Publication Date: 2020-11-16

Description: We consider the following planning problem in public transportation: Given a periodic timetable, how many vehicles are required to operate it? In [9], for this sequential approach, it is proposed to first expand the periodic timetable over time, and then answer the above question by solving a flow-based aperiodic optimization problem. In this contribution we propose to keep the compact periodic representation of the timetable and simply solve a particular perfect matching problem. For practical networks, it is very much likely that the matching problem decomposes into several connected components. Our key observation is that there is no need to change any turnaround decision for the vehicles of a line during the day, as long as the timetable stays exactly the same.

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

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4

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New Perspectives on PESP: T-Partitions and Separators (2019)

Lindner, Niels ; Liebchen, Christian

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Publication Date: 2020-11-16

Description: In the planning process of public transportation companies, designing the timetable is among the core planning steps. In particular in the case of periodic (or cyclic) services, the Periodic Event Scheduling Problem (PESP) is well-established to compute high-quality periodic timetables. We are considering algorithms for computing good solutions for the very basic PESP with no additional extra features as add-ons. The first of these algorithms generalizes several primal heuristics that had been proposed in the past, such as single-node cuts and the modulo network simplex algorithm. We consider partitions of the graph, and identify so-called delay cuts as a structure that allows to generalize several previous heuristics. In particular, when no more improving delay cut can be found, we already know that the other heuristics could not improve either. The second of these algorithms turns a strategy, that had been discussed in the past, upside-down: Instead of gluing together the network line-by-line in a bottom-up way, we develop a divide-and-conquer-like top-down approach to separate the initial problem into two easier subproblems such that the information loss along their cutset edges is as small as possible. We are aware that there may be PESP instances that do not fit well the separator setting. Yet, on the RxLy-instances of PESPlib in our experimental computations, we come up with good primal solutions and dual bounds. In particular, on the largest instance (R4L4), this new separator approach, which applies a state-of-the-art solver as subroutine, is able to come up with better dual bounds than purely applying this state-of-the-art solver in the very same time.

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

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5

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A Simple Way to Compute the Number of Vehicles That Are Required to Operate a Periodic Timetable (2018)

Borndörfer, Ralf ; Karbstein, Marika ; Liebchen, Christian ; [et al.]

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Publication Date: 2020-11-16

Description: We consider the following planning problem in public transportation: Given a periodic timetable, how many vehicles are required to operate it? In [9], for this sequential approach, it is proposed to first expand the periodic timetable over time, and then answer the above question by solving a flow-based aperiodic optimization problem. In this contribution we propose to keep the compact periodic representation of the timetable and simply solve a particular perfect matching problem. For practical networks, it is very much likely that the matching problem decomposes into several connected components. Our key observation is that there is no need to change any turnaround decision for the vehicles of a line during the day, as long as the timetable stays exactly the same.

Language: English

Type: conferenceobject , doc-type:conferenceObject

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6

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New Perspectives on PESP: T-Partitions and Separators (2019)

Lindner, Niels ; Liebchen, Christian

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Publication Date: 2020-11-16

Description: In the planning process of public transportation companies, designing the timetable is among the core planning steps. In particular in the case of periodic (or cyclic) services, the Periodic Event Scheduling Problem (PESP) is well-established to compute high-quality periodic timetables. We are considering algorithms for computing good solutions for the very basic PESP with no additional extra features as add-ons. The first of these algorithms generalizes several primal heuristics that had been proposed in the past, such as single-node cuts and the modulo network simplex algorithm. We consider partitions of the graph, and identify so-called delay cuts as a structure that allows to generalize several previous heuristics. In particular, when no more improving delay cut can be found, we already know that the other heuristics could not improve either. The second of these algorithms turns a strategy, that had been discussed in the past, upside-down: Instead of gluing together the network line-by-line in a bottom-up way, we develop a divide-and-conquer-like top-down approach to separate the initial problem into two easier subproblems such that the information loss along their cutset edges is as small as possible. We are aware that there may be PESP instances that do not fit well the separator setting. Yet, on the RxLy-instances of PESPlib in our experimental computations, we come up with good primal solutions and dual bounds. In particular, on the largest instance (R4L4), this new separator approach, which applies a state-of-the-art solver as subroutine, is able to come up with better dual bounds than purely applying this state-of-the-art solver in the very same time.

Language: English

Type: conferenceobject , doc-type:conferenceObject

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7

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When Periodic Timetables are Suboptimal (2007)

Borndörfer, Ralf ; Liebchen, Christian

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Publication Date: 2020-11-16

Description: The timetable is the essence of the service offered by any provider of public transport'' (Jonathan Tyler, CASPT 2006). Indeed, the timetable has a major impact on both operating costs and on passenger comfort. Most European agglomerations and railways use periodic timetables in which operation repeats in regular intervals. In contrast, many North and South American municipalities use trip timetables in which the vehicle trips are scheduled individually subject to frequency constraints. We compare these two strategies with respect to vehicle operation costs. It turns out that for short time horizons, periodic timetabling can be suboptimal; for sufficiently long time horizons, however, periodic timetabling can always be done in an optimal way'.

Keywords: ddc:510

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

Format: application/postscript

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