Compact Formulations for Split Delivery Routing Problems

P. Munari, M. Savelsbergh
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引用次数: 13

Abstract

Split delivery routing problems are concerned with serving the demand of a set of customers with a fleet of capacitated vehicles at minimum cost, where a customer can be served by more than one vehicle if beneficial. They generalize traditional variants of routing problems and have applications in commercial and humanitarian logistics. Previously, formulations involving only commonly used arc-based variables have provided only relaxations for split delivery variants, as the possibility of visiting customers more than once introduces modeling challenges. The only known compact formulations are based on variables indexed by vehicle or by visit number and perform poorly when using general-purpose integer programming software. We present compact formulations that avoid the use of these types of variables and that can model split delivery routing problems with and without time windows. Computational experiments demonstrate their superior performance over existing compact formulations. We also develop a branch-and-cut algorithm that balances the efficiency derived from a relaxed formulation with the strength derived from one of the proposed formulations and demonstrate its efficacy on a large set of benchmark instances. The algorithm solves 95 instances to proven optimality for the first time and improves the best known lower and/or upper bound for many other instances.
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分割交货路线问题的紧凑公式
分割交付路线问题涉及以最低成本用一组有能力的车辆满足一组客户的需求,如果有利的话,可以使用多辆车辆为客户提供服务。它们概括了路由问题的传统变体,并在商业和人道主义物流中得到应用。以前,只涉及常用的基于弧的变量的公式只提供了对分离交付变量的松弛,因为多次访问客户的可能性引入了建模挑战。唯一已知的紧凑公式是基于车辆或访问次数索引的变量,并且在使用通用整数编程软件时表现不佳。我们提出了紧凑的公式,避免使用这些类型的变量,并且可以对有或没有时间窗口的分割交付路由问题进行建模。计算实验证明了其优于现有紧凑公式的性能。我们还开发了一种分支切断算法,该算法平衡了从宽松公式中获得的效率和从提议公式中获得的强度,并在大量基准实例上证明了其有效性。该算法首次解决了95个实例的最优性,并改进了许多其他实例的已知下限和/或上限。
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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