Search results for "Maximum cut"

showing 3 items of 3 documents

Optimization procedures for the bipartite unconstrained 0-1 quadratic programming problem

2014

The bipartite unconstrained 0-1 quadratic programming problem (BQP) is a difficult combinatorial problem defined on a complete graph that consists of selecting a subgraph that maximizes the sum of the weights associated with the chosen vertices and the edges that connect them. The problem has appeared under several different names in the literature, including maximum weight induced subgraph, maximum weight biclique, matrix factorization and maximum cut on bipartite graphs. There are only two unpublished works (technical reports) where heuristic approaches are tested on BQP instances. Our goal is to combine straightforward search elements to balance diversification and intensification in bot…

Discrete mathematicsGeneral Computer ScienceIterated local searchMaximum cutInduced subgraphManagement Science and Operations ResearchComplete bipartite graphCombinatoricsBQPModeling and SimulationBipartite graphBeam searchQuadratic programmingMathematicsofComputing_DISCRETEMATHEMATICSMathematicsComputers & Operations Research
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Advanced Scatter Search for the Max-Cut Problem

2009

The max-cut problem consists of finding a partition of the nodes of a weighted graph into two subsets such that the sum of the weights on the arcs connecting the two subsets is maximized. This is an NP-hard problem that can also be formulated as an integer quadratic program. Several solution methods have been developed since the 1970s and applied to a variety of fields, particularly in engineering and layout design. We propose a heuristic method based on the scatter-search methodology for finding approximate solutions to this optimization problem. Our solution procedure incorporates some innovative features within the scatter-search framework: (1) the solution of the maximum diversity prob…

Mathematical optimizationOptimization problemCounting problemCutting stock problemMaximum cutGeneral EngineeringP versus NP problemPartition problemComputational problemMetaheuristicMathematicsINFORMS Journal on Computing
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Hybridizing the cross-entropy method: An application to the max-cut problem

2009

Cross-entropy has been recently proposed as a heuristic method for solving combinatorial optimization problems. We briefly review this methodology and then suggest a hybrid version with the goal of improving its performance. In the context of the well-known max-cut problem, we compare an implementation of the original cross-entropy method with our proposed version. The suggested changes are not particular to the max-cut problem and could be considered for future applications to other combinatorial optimization problems.

Mathematical optimizationOptimization problemGeneral Computer ScienceQuadratic assignment problemMaximum cutCross-entropy methodManagement Science and Operations ResearchCross entropyModeling and SimulationCombinatorial optimizationCombinatorial methodMetaheuristicAlgorithmMathematicsComputers & Operations Research
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