An Algorithm for the Generalized Quadratic Assignment Problem
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combinatorial optimization
branch-and-bound
quadratic assignment problem
reformulation linearization technique
lagrangian dual
dual ascent procedure
Other Mathematics
Other Physical Sciences and Mathematics
branch-and-bound
quadratic assignment problem
reformulation linearization technique
lagrangian dual
dual ascent procedure
Other Mathematics
Other Physical Sciences and Mathematics
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Abstract
This paper reports on a new algorithm for the Generalized Quadratic Assignment problem (GQAP). The GQAP describes a broad class of quadratic integer programming problems, wherein M pair-wise related entities are assigned to N destinations constrained by the destinations’ ability to accommodate them. This new algorithm is based on a Reformulation Linearization Technique (RLT) dual ascent procedure. Experimental results show that the runtime of this algorithm is as good or better than other known exact solution methods for problems as large as M=20 and N=15.
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2008-07-01
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Computational Optimization and Applications