Abstract
We consider the basic Vehicle Routing Problem (VRP) in which a fleet ofM identical vehicles stationed at a central depot is to be optimally routed to supply customers with known demands subject only to vehicle capacity constraints. In this paper, we present an exact algorithm for solving the VRP that uses lower bounds obtained from a combination of two relaxations of the original problem which are based on the computation ofq-paths andk-shortest paths. A set of reduction tests derived from the computation of these bounds is applied to reduce the size of the problem and to improve the quality of the bounds. The resulting lower bounds are then embedded into a tree-search procedure to solve the problem optimally. Computational results are presented for a number of problems taken from the literature. The results demonstrate the effectiveness of the proposed method in solving problems involving up to about 50 customers and in providing tight lower bounds for problems up to about 150 customers.
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Hadjiconstantinou, E., Christofides, N. & Mingozzi, A. A new exact algorithm for the vehicle routing problem based onq-paths andk-shortest paths relaxations. Ann Oper Res 61, 21–43 (1995). https://doi.org/10.1007/BF02098280
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DOI: https://doi.org/10.1007/BF02098280