Title of article
A branch-and-cut algorithm for a traveling salesman problem with pickup and delivery Original Research Article
Author/Authors
Hip?lito Hern?ndez-Pérez، نويسنده , , Juan-José Salazar-Gonz?lez، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
14
From page
126
To page
139
Abstract
We study a generalization of the well-known traveling salesman problem (TSP) where each customer provides or requires a given non-zero amount of product, and the vehicle in a depot has a given capacity. Each customer and the depot must be visited exactly once by the vehicle supplying the demand while minimizing the total travel distance. We assume that the product collected from pickup customers can be delivered to delivery customers. We introduce a 0-1 integer linear model for this problem and describe a branch-and-cut procedure for finding an optimal solution. The model and the algorithm are adapted to solve instances of TSP with pickup and delivery. Some computational results are presented to analyze the performance of our proposal.
Keywords
branch and cut , Benders’ cuts , Traveling salesman problem , Pickup and delivery
Journal title
Discrete Applied Mathematics
Serial Year
2004
Journal title
Discrete Applied Mathematics
Record number
885997
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