Routing Trains Through Railway Stations: Model Formulation and Algorithms

Zwaneveld, Peter; Kroon, Leo; Romeijn, H. Edwin; Salomon, Marc; Dauzère‐Pérès, Stéphane; Hoesel, Stan van; Ambergen, H.W.

doi:10.1287/trsc.30.3.181

Cited by 144 publications

(123 citation statements)

References 7 publications

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“…In addition, modifications could be made to improve our reactive GRASP procedure and to use the learning process and reactive GRASP together more efficiently. Moreover, we could study the impact of some other preprocessing phases to reduce the size of the problem and to improve our upper bounds: reduction tests like those used by Zwaneveld et al [11] and valid inequalities as defined by Padberg [8] constitute two likely directions for research.…”

Section: Discussionmentioning

confidence: 99%

“…To design the feasibility problem, binary decision variables are introduced. These decision variables are This formulation is close to the model developed in Zwaneveld et al [11], in which the decisions of the entrance times were not included. The objective is to maximize the number of trains that can be routed through the junction without preference between trains.…”

Section: Railway Problem Instancesmentioning

confidence: 98%

“…R€ o onnqvist [10] worked on a cutting stock problem formulated as an SPP and solved using a Lagrangian relaxation combined with subgradient optimization. Zwaneveld et al [11] formulated a real railway feasibility problem as an SPP and solved it exactly using reduction tests and a Branch & Cut method. Kim [12] represented a ship scheduling problem as an SPP and used LINDO software to solve it.…”

Section: The Set Packing Problemmentioning

confidence: 99%

“…• The values of items (c i ) are uniformly distributed in the interval [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] (weighted) or fixed to 1 (unicost).…”

Section: Randomly Generated Instancesmentioning

confidence: 99%

“…Measuring the capacity of junctions is a matter of solving an optimization problem called the feasibility problem. As mentioned in Section 2, this problem has been formulated in terms of an SPP by Zwaneveld et al [11] and more recently by Delorme et al [3,4]. The feasibility problem of a junction can be stated as follows:…”

Section: Railway Problem Instancesmentioning

confidence: 99%

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GRASP for set packing problems

Delorme

Gandibleux

Rodríguez³

2004

European Journal of Operational Research

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The principles of the Greedy Randomized Adaptative Search Procedure (GRASP) metaheuristic are instantiated for the set packing problem. We investigated several construction phases, and evaluated improvements based on advanced strategies. These improvements include a self-tuning procedure (using reactive GRASP), an intensification procedure (using path relinking) and a procedure involving the diversification of the selection (using a learning process). Two sets of various numerical instances were used to perform the computational experiments. The first set contains randomly generated instances, while the second includes instances relating to real problems in railway planning. No metaheuristic has previously been applied to this combinatorial problem. Consequently, we have discussed GRASPÕs performances both in relation to lower/upper bounds and to the results obtained with Cplex when such results are available. Our analysis, based on the average performances observed, shows the impact of the suggested strategies, and indicates the configuration that produces the best results.

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Section: Discussionmentioning

confidence: 99%

Section: Railway Problem Instancesmentioning

confidence: 98%

Section: The Set Packing Problemmentioning

confidence: 99%

“…• The values of items (c i ) are uniformly distributed in the interval [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] (weighted) or fixed to 1 (unicost).…”

Section: Randomly Generated Instancesmentioning

confidence: 99%

Section: Railway Problem Instancesmentioning

confidence: 99%

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GRASP for set packing problems

Delorme

Gandibleux

Rodríguez³

2004

European Journal of Operational Research

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The Online Track Assignment Problem

Demange¹,

and²,

Leroy-Beaulieu³

2008

Combinatorial Optimization and Theoretical Computer Science

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Periodic railway timetabling with event flexibility

et al. 2010

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Abstract. This paper addresses the problem of generating conflict-free periodic train timetables for large railway networks. We follow a two level approach, where a simplified track topology is used to obtain a macro-level schedule, and the detailed topology is considered locally on the micro level. To increase the solution space in the interface of the two levels, we propose an extension of the well-known Periodic Event Scheduling Problem (PESP) such that it allows to generate flexible time slots for the departure and arrival times instead of exact times. This Flexible Periodic Event Scheduling Problem (FPESP) formulation considerably increases the chance to obtain feasible solutions (exact train routings) subsequently on the micro level, in particular for stations with dense peak traffic. Total trip time and the time slot sizes are used as multiple objectives and weighted and/or constrained to allocate the flexibility where it is most useful. Tests on a medium size instance of the Swiss Federal Railways 2007 service intention demonstrate the advantage of the FPESP model, while it only moderately increases its solution time in most cases.

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Routing Trains Through Railway Stations: Model Formulation and Algorithms

Cited by 144 publications

References 7 publications

GRASP for set packing problems

GRASP for set packing problems

The Online Track Assignment Problem

Periodic railway timetabling with event flexibility

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