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A Column-Generation Approach to Line Planning in Public Transport (2007)

Borndörfer, Ralf ; Grötschel, Martin ; Pfetsch, Marc

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Publication Date: 2020-12-15

Language: English

Type: article , doc-type:article

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Models for Railway Track Allocation (2007)

Borndörfer, Ralf ; Schlechte, Thomas

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Publication Date: 2020-11-16

Language: English

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Models for Railway Track Allocation (2007)

Borndörfer, Ralf ; Schlechte, Thomas

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Publication Date: 2020-08-05

Description: This article is about the optimal track allocation problem (OPTRA) to find, in a given railway network, a conflict free set of train routes of maximum value. We study two types of integer programming formulations: a standard formulation that models block conflicts in terms of packing constraints, and a new extended formulation that is based on additional configuration' variables. We show that the packing constraints in the standard formulation stem from an interval graph, and that they can be separated in polynomial time. It follows that the LP relaxation of a strong version of this model, including all clique inequalities from block conflicts, can be solved in polynomial time. We prove that the extended formulation produces the same LP bound, and that it can also be computed with this model in polynomial time. Albeit the two formulations are in this sense equivalent, the extended formulation has advantages from a computational point of view, because it features a constant number of rows and is therefore amenable to standard column generation techniques. Results of an empirical model comparison on mesoscopic data for the Hannover-Fulda-Kassel region of the German long distance railway network are reported.

Keywords: ddc:000

Language: English

Type: reportzib , doc-type:preprint

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Solving Railway Track Allocation Problems (2007)

Borndörfer, Ralf ; Schlechte, Thomas

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Publication Date: 2020-08-05

Description: The \emph{optimal track allocation problem} (\textsc{OPTRA}), also known as the train routing problem or the train timetabling problem, is to find, in a given railway network, a conflict-free set of train routes of maximum value. We propose a novel integer programming formulation for this problem that is based on additional configuration' variables. Its LP-relaxation can be solved in polynomial time. These results are the theoretical basis for a column generation algorithm to solve large-scale track allocation problems. Computational results for the Hanover-Kassel-Fulda area of the German long distance railway network involving up to 570 trains are reported.

Keywords: ddc:000

Language: English

Type: reportzib , doc-type:preprint

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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

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Non-Linear Charge Functions for Electric Vehicle Scheduling with Dynamic Recharge Rates (2023)

Löbel, Fabian ; Borndörfer, Ralf (Prof. Dr.) ; Weider, Steffen (Dr.)

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Publication Date: 2023-09-05

Description: The ongoing electrification of logistics systems and vehicle fleets increases the complexity of associated vehicle routing or scheduling problems. Battery-powered vehicles have to be scheduled to recharge in-service, and the relationship between charging time and replenished driving range is non-linear. In order to access the powerful toolkit offered by mixed-integer and linear programming techniques, this battery behavior has to be linearized. Moreover, as electric fleets grow, power draw peaks have to be avoided to save on electricity costs or to adhere to hard grid capacity limits, such that it becomes desirable to keep recharge rates dynamic. We suggest a novel linearization approach of battery charging behavior for vehicle scheduling problems, in which the recharge rates are optimization variables and not model parameters.

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Non-Linear Battery Behavior in Electric Vehicle Scheduling Problems (2023)

Löbel, Fabian ; Borndörfer, Ralf ; Weider, Steffen

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Publication Date: 2023-10-04

Description: The currently most popular approach to handle non-linear battery behavior for electric vehicle scheduling is to use a linear spline interpolation of the charge curve. We show that this can lead to approximate models that underestimate the charge duration and overestimate the state of charge, which is not desirable. While the error is of second order with respect to the interpolation step size, the associated mixed-integer linear programs do not scale well with the number of spline segments. It is therefore recommendable to use coarse interpolation grids adapted to the curvature of the charge curve, and to include sufficient safety margins to ensure solutions of approximate models remain feasible subjected to the exact charge curve.

Language: English

Type: reportzib , doc-type:preprint

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K-Shortest Simple Paths Using Biobjective Path Search (2023)

Maristany de las Casas, Pedro ; Sedeño-Noda, Antonio (Prof. Dr.) ; Borndörfer, Ralf (Prof. Dr.) ; [et al.]

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Publication Date: 2024-02-21

Description: In this paper we introduce a new algorithm for the k-Shortest Simple Paths (K-SSP) problem with an asymptotic running time matching the state of the art from the literature. It is based on a black-box algorithm due to Roditty and Zwick (2012) that solves at most 2k instances of the Second Shortest Simple Path (2-SSP) problem without specifying how this is done. We fill this gap using a novel approach: we turn the scalar 2-SSP into instances of the Biobjective Shortest Path problem. Our experiments on grid graphs and on road networks show that the new algorithm is very efficient in practice.

Language: English

Type: article , doc-type:article

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New Dynamic Programming Algorithm for the Multiobjective Minimum Spanning Tree Problem (2023)

Maristany de las Casas, Pedro ; Sedeño-Noda, Antonio (Prof. Dr.) ; Borndörfer, Ralf (Prof. Dr.)

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Publication Date: 2024-02-21

Description: The Multiobjective Minimum Spanning Tree (MO-MST) problem is a variant of the Minimum Spanning Tree problem, in which the costs associated with every edge of the input graph are vectors. In this paper, we design a new dynamic programming MO-MST algorithm. Dynamic programming for a MO-MST instance leads to the definition of an instance of the One-to-One Multiobjective Shortest Path (MOSP) problem and both instances have equivalent solution sets. The arising MOSP instance is defined on a so called transition graph. We study the original size of this graph in detail and reduce its size using cost dependent arc pruning criteria. To solve the MOSP instance on the reduced transition graph, we design the Implicit Graph Multiobjective Dijkstra Algorithm (IG-MDA), exploiting recent improvements on MOSP algorithms from the literature. All in all, the new IG-MDA outperforms the current state of the art on a big set of instances from the literature. Our code and results are publicly available.

Language: English

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Targeted multiobjective Dijkstra Algorithm (2023)

Maristany de las Casas, Pedro ; Kraus, Luitgard ; Sedeno-Noda, Antonio ; [et al.]

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Publication Date: 2024-02-20

Description: We introduce the Targeted Multiobjective Dijkstra Algorithm (T-MDA), a label setting algorithm for the One-to-One Multiobjective Shortest Path (MOSP) Problem. It is based on the recently published Multiobjective Dijkstra Algorithm (MDA) and equips it with A*-like techniques. For any explored subpath, a label setting MOSP algorithm decides whether the subpath can be discarded or must be stored as part of the output. A major design choice is how to store subpaths from the moment they are first explored until the mentioned final decision can be made. The T-MDA combines the polynomially bounded size of the priority queue used in the MDA and alazy management of paths that are not in the queue. The running time bounds from the MDA remain valid. In practice, the T-MDA outperforms known algorithms from the literature and the increased memory consumption is negligible. In this paper, we benchmark the T-MDA against an improved version of the state of the art NAMOA∗drOne-to-One MOSP algorithm from the literature on a standard testbed.

Language: English

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