Using branch-and-price-and-cut to solve origin–destination integer multicommodity flow problems

Using branch-and-price-and-cut to solve origin–destination integer multicommodity flow problems

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Article ID: iaor20011994
Country: United States
Volume: 48
Issue: 2
Start Page Number: 318
End Page Number: 326
Publication Date: Mar 2000
Journal: Operations Research
Authors: , ,
Keywords: programming: integer, programming: linear
Abstract:

We present a column-generation model and branch-and-price-and-cut algorithm for origin–destination integer multicommodity flow problems. The origin–destination integer multicommodity flow problem is a constrained version of the linear multicommodity flow problem in which flow of a commodity (defined in this case by an origin–destination pair) may use only one path from origin to destination. Branch-and-price-and-cut is a variant of branch-and-bound, with bounds provided by solving linear programs using column-and-cut generation at nodes of the branch-and-bound tree. Because our model contains one variable for each origin–destination path, for every commodity, the linear programming relaxations at nodes of the branch-and-bound tree are solved using column generation, i.e., implicit pricing of nonbasic variables to generate new columns or to prove LP optimality. We devise a new branching rule that allows columns to be generated efficiently at each node of the branch-and-bound tree. Then, we describe cuts (cover inequalities) that can be generated at each node of the branch-and-bound tree. These cuts help to strengthen the linear programming relaxation and to mitigate the effects of problem symmetry. We detail the implementation of our combined column-and-cut generation method and present computational results for a set of test problems arising from telecommunications applications. We illustrate the value of our branching rule when used to find a heuristic solution and compare branch-and-price and branch-and-price-and-cut methods to find optimal solutions for highly capacitated problems.

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