A Branch-and-Cut algorithm for the Single Source Capacitated Facility Location problem

2013 International Conference on Advanced Logistics and Transport Pub Date : 2013-05-29 DOI:10.1109/ICADLT.2013.6568456

P. Avella, M. Boccia, S. Mattia

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引用次数: 5

Abstract

Several Mixed Integer Linear Programming problems present a formulation based on a great number of knapsack constraints. Problems widely addressed in literature with this structure are, among others, Generalized Assignment, Multiple Knapsack, Bin Packing, Capacitated P-median and Single Source Capacitated Facility Location. In general knapsack constraints make these problems very hard to solve. The state of the art on these problems requires to use approaches besed on Lagrangean Relaxation or decomposition approaches like Dantzig-Wolfe and Column Generation tenchniques. In this paper, we present an approach based on the generation of general cutting planes of the polyhedron associated with each knapsack constraints. This approach yields a lower bound for the LP-relaxation that is the same obtained by the Dantzig-Wolfe decomposition and henceforth stronger than the LP-relaxation. We use this approach in the solution of the Single Source Capacitated Facility Location problem (SSCFLP) using a Branch-and-Cut algorithm. Computational experience is reported on a large set of test instances available in literature.

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单源有容设施选址问题的分支切断算法

几个混合整数线性规划问题提出了一个基于大量背包约束的公式。在文献中广泛讨论的问题是，除其他外，广义分配，多背包，Bin包装，可容p中值和单源可容设施定位。一般来说，背包约束使得这些问题很难解决。这些问题的最新技术要求使用基于拉格朗日松弛或分解方法的方法，如dantzigg - wolfe和列生成技术。在本文中，我们提出了一种基于生成与每个背包约束相关的多面体的一般切割平面的方法。这种方法得到了与dantzigg - wolfe分解得到的相同的lp松弛的下界，并且从此以后比lp松弛更强。我们将此方法用于解决单源有能力设施定位问题(SSCFLP)，该问题采用了分支切断算法。计算经验是在文献中可用的大量测试实例上报告的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 International Conference on Advanced Logistics and Transport

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