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Valid inequalities for the fleet size and mix vehicle routing problem with fixed costs

Valid inequalities for the fleet size and mix vehicle routing problem with fixed costs
Valid inequalities for the fleet size and mix vehicle routing problem with fixed costs
In the well-known vehicle routing problem (VRP), a set of identical vehicles located at a central depot is to be optimally routed to supply customers with known demands subject to vehicle capacity constraints. An important variant of the VRP arises when a mixed fleet of vehicles, characterized by different capacities and costs, is available for distribution activities. The problem is known as fleet size and mix VRP with fixed costs FSMF and has several practical applications. In this article, we present a new mixed integer programming formulation for FSMF based on a two-commodity network flow approach. New valid inequalities are proposed to strengthen the linear programming relaxation of the mathematical formulation. The effectiveness of the proposed cuts is extensively tested on benchmark instances
1097-0037
178-189
Baldacci, Roberto
16fc1690-9ac5-4228-a0a8-ea87bf0726cf
Battarra, Maria
0498dc58-e9d5-4ad2-a141-040f7bcebbc2
Vigo, Daniele
0bc6db04-0bff-438e-91ca-947171d0604e
Baldacci, Roberto
16fc1690-9ac5-4228-a0a8-ea87bf0726cf
Battarra, Maria
0498dc58-e9d5-4ad2-a141-040f7bcebbc2
Vigo, Daniele
0bc6db04-0bff-438e-91ca-947171d0604e

Baldacci, Roberto, Battarra, Maria and Vigo, Daniele (2009) Valid inequalities for the fleet size and mix vehicle routing problem with fixed costs. Networks, 54 (4), 178-189. (doi:10.1002/net.20331).

Record type: Article

Abstract

In the well-known vehicle routing problem (VRP), a set of identical vehicles located at a central depot is to be optimally routed to supply customers with known demands subject to vehicle capacity constraints. An important variant of the VRP arises when a mixed fleet of vehicles, characterized by different capacities and costs, is available for distribution activities. The problem is known as fleet size and mix VRP with fixed costs FSMF and has several practical applications. In this article, we present a new mixed integer programming formulation for FSMF based on a two-commodity network flow approach. New valid inequalities are proposed to strengthen the linear programming relaxation of the mathematical formulation. The effectiveness of the proposed cuts is extensively tested on benchmark instances

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More information

e-pub ahead of print date: 11 August 2009
Published date: December 2009
Organisations: Operational Research

Identifiers

Local EPrints ID: 204841
URI: http://eprints.soton.ac.uk/id/eprint/204841
DOI: doi:10.1002/net.20331
ISSN: 1097-0037
PURE UUID: 123ca921-661a-46ce-a97d-7c836de324ea

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Date deposited: 02 Dec 2011 11:23
Last modified: 14 Mar 2024 04:33

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Contributors

Author: Roberto Baldacci
Author: Maria Battarra
Author: Daniele Vigo

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