Abstract
This work addresses the robust counterpart of the shortest path problem (RSPP) with a correlated uncertainty set. Because this problem is difficult, a heuristic approach, based on Frank–Wolfe’s algorithm named discrete Frank–Wolfe (DFW), has recently been proposed. The aim of this paper is to propose a semi-definite programming relaxation for the RSPP that provides a lower bound to validate approaches such as the DFW algorithm. The relaxed problem is a semi-definite programming (SDP) problem that results from a bidualization that is done through a reformulation of the RSPP into a quadratic problem. Then, the relaxed problem is solved by using a sparse version of Pierra’s decomposition in a product space method. This validation method is suitable for large-size problems. The numerical experiments show that the gap between the solutions obtained with the relaxed and the heuristic approaches is relatively small.
Subject
General Mathematics,Engineering (miscellaneous),Computer Science (miscellaneous)
Reference41 articles.
1. Kouvelis, P., and Yu, G. (2013). Robust Discrete Optimization and Its Applications, Springer Science & Business Media.
2. A comparative theoretical and computational study on robust counterpart optimization: I. Robust linear optimization and robust mixed integer linear optimization;Li;Ind. Eng. Chem. Res.,2011
3. Adjustable robust solutions of uncertain linear programs;Goryashko;Math. Program.,2004
4. K-adaptability in two-stage distributionally robust binary programming;Hanasusanto;Oper. Res. Lett.,2016
5. Rahimian, H., and Mehrotra, S. (2019). Distributionally robust optimization: A review. arXiv.