A Parallel Cutting-Plane Algorithm for the Vehicle Routing Problem With Time Windows (1999)
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BibTeX
@MISC{Cook99aparallel,
author = {William Cook and Jennifer L. Rich},
title = {A Parallel Cutting-Plane Algorithm for the Vehicle Routing Problem With Time Windows},
year = {1999}
}
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Abstract
In the vehicle routing problem with time windows a number of identical vehicles must be routed to and from a depot to cover a given set of customers, each of whom has a specified time interval indicating when they are available for service. Each customer also has a known demand, and a vehicle may only serve the customers on a route if the total demand does not exceed the capacity of the vehicle. The most effective solution method proposed to date for this problem is due to Kohl, Desrosiers, Madsen, Solomon, and Soumis. Their algorithm uses a cutting-plane approach followed by a branchand -bound search with column generation, where the columns of the LP relaxation represent routes of individual vehicles. We describe a new implementation of their method, using Karger's randomized minimum-cut algorithm to generate cutting planes. The standard benchmark in this area is a set of 87 problem instances generated in 1984 by M. Solomon; making using of parallel processing in both the cutting-pla...
