A discrete equal-capacity p-Median problem
This thesis deals with the analysis of a discrete equal-capacity p-median problem, where the costs are directly proportional to the shipping distance and the amount shipped. A mixed integer programming formulation of the unbalanced, but equal capacitated case is analyzed. First we develop a dynamic...
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Format: | Others |
Language: | en |
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Virginia Tech
2014
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Online Access: | http://hdl.handle.net/10919/46134 http://scholar.lib.vt.edu/theses/available/etd-12052009-020104/ |
Summary: | This thesis deals with the analysis of a discrete equal-capacity p-median problem, where the costs are directly proportional to the shipping distance and the amount shipped. A mixed integer programming formulation of the unbalanced, but equal capacitated case is analyzed. First we develop a dynamic programming procedure for a p-median problem on a chain graph. In the second part we develop an algorithm to solve a p-median problem on a general network. First a heuristic algorithm is used to obtain an upper bound on the problem. Next, we obtain a lower bound on the problem by solving a Lagrangian relaxation of a reformulated problem via a conjugate subgradient optimization procedure. We obtain Benders’ cuts from the above procedures and proceed to a modified Benders’ approach to solve the continuous relaxation of the original problem. Finally a branch-and-bound algorithm that enumerates over the location decision variable space is used to obtain an integer optimal solution. Computational experience is provided to demonstrate the efficacy of the algorithm. === Master of Science |
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