Path inequalities for the vehicle routing problem with time windows

Kallehauge, Brian; Boland, Natashia; Madsen, Oli B. G.

Title: Path inequalities for the vehicle routing problem with time windows
Creator: Kallehauge, Brian; Boland, Natashia; Madsen, Oli B. G.
Relation: Networks Vol. 49, Issue 4, p. 273-293
Publisher Link: http://dx.doi.org/10.1002/net.20178
Publisher: Wiley-Blackwell Publishing
Resource Type: journal article
Date: 2007
Description: In this paper we introduce a new formulation of the vehicle routing problem with time windows (VRPTW) involving only binary variables. The new formulation is based on the formulation of the asymmetric traveling salesman problem with time windows by Ascheuer et al. and has the advantage of avoiding additional variables and linking constraints. In the new formulation, time windows are modeled using path inequalities that eliminate time and capacity infeasible paths. We present a new class of strengthened path inequalities based on the polyhedral results obtained by Mak for a variant of the TSP. We study the VRPTW polytope and determine its dimension. We show that the lifted path inequalities are facet defining under certain assumptions. We also introduce precedence constraints in the context of the VRPTW. Computational experiments are performed with a branch and cut algorithm on the Solomon test problems with wide time windows. Based on results on 25-node problems, the outcome is promising compared to leading algorithms in the literature. In particular, we report a solution to a previously unsolved 50-node Solomon test problem R208. The conclusion is therefore that a polyhedral approach to the VRPTW is a viable alternative to the path formulation of Desrochers et al.
Subject: vehicle routing; time windows; polyhedral analysis; branch and cut
Identifier: http://hdl.handle.net/1959.13/939377
Identifier: uon:12789
Identifier: ISSN:0028-3045
Language: eng
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