The fixed-charge shortest-path problem

Engineer, Faramroze G.; Nemhauser, George L.; Savelsbergh, Martin W. P.; Song, Jin-Hwa

Title: The fixed-charge shortest-path problem
Creator: Engineer, Faramroze G.; Nemhauser, George L.; Savelsbergh, Martin W. P.; Song, Jin-Hwa
Relation: INFORMS Journal on Computing Vol. 24, Issue 4, p. 578-596
Publisher Link: http://dx.doi.org/10.1287/ijoc.1110.0469
Publisher: Institute for Operations Research and the Management Sciences (INFORMS)
Resource Type: journal article
Date: 2012
Description: Consider a network N = (N, A) and associate with each arc e ∈ A a fixed cost c_e for using arc e, an interval [l_e, u_e] (l_e, u_e ∈ ℤ) specifying the range of allowable resource consumption quantities along arc e, and a per-unit cost c_e for resource consumed along e. Furthermore, for each node n ∈ N, let U_n ∈ ℤ be the maximum amount of resource consumption a path can accumulate before visiting node n. Given a source node n_s ∈ N and sink node n_t ∈ N, the fixed-charge shortest-path problem (FCSPP) seeks to find a minimum-cost-feasible path from n_s to n_t . When resource consumption is simply additive, the resource-constrained shortest-path problem (RCSPP) is a special case of FCSPP. We develop a new dynamic programming algorithm for FCSPP. The algorithm uses solutions from labeling and dominance techniques for standard RCSPPs on slightly modified problems, and it combines these solutions by exploiting the structure provided by certain classes of knapsack problems to efficiently construct an optimal solution to FCSPP. Computational experiments demonstrate that our algorithm is often several orders of magnitude faster than naive dynamic programming procedures.
Subject: shortest path; fixed charge; dynamic programming
Identifier: http://hdl.handle.net/1959.13/937293
Identifier: uon:12543
Identifier: ISSN:1091-9856
Language: eng
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