A dynamic programming algorithm for solving the k-Color Shortest Path Problem
Copyright policy )A dynamic programming algorithm for solving the k-Color Shortest Path Problem
AbstractSeveral variants of the classical Constrained Shortest Path Problem have been presented in the literature so far. One of the most recent is thek-Color Shortest Path Problem($$k$$k-CSPP), that arises in the field of transmission networks design. The problem is formulated on a weighted edge-colored graph and the use of the colors as edge labels allows to take into account the matter of path reliability while optimizing its cost. In this work, we propose a dynamic programming algorithm and compare its performances with two solution approaches: a Branch and Bound technique proposed by the authors in their previous paper and the solution of the mathematical model obtained with CPLEX solver. The results gathered in the numerical validation evidenced how the dynamic programming algorithm vastly outperformed previous approaches.
Aurora Universities Network, Edge-colored network, dynamic programming, Control and Optimization, edge-colored network, Programming involving graphs or networks, Dynamic programming, Constrained Shortest Path, network optimization, constrained shortest path, Constrained Shortest Path; Dynamic programming; Edge-colored network; Network optimization, Network optimization
Aurora Universities Network, Edge-colored network, dynamic programming, Control and Optimization, edge-colored network, Programming involving graphs or networks, Dynamic programming, Constrained Shortest Path, network optimization, constrained shortest path, Constrained Shortest Path; Dynamic programming; Edge-colored network; Network optimization, Network optimization
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