Search results for "Linear ordering"

showing 2 items of 2 documents

Multi-Start Methods

2006

Heuristic search procedures that aspire to find global optimal solutions to hard combinatorial optimization problems usually require some type of diversification to overcome local optimality. One way to achieve diversification is to re-start the procedure from a new solution once a region has been explored. In this chapter we describe the best known multi-start methods for solving optimization problems. We propose classifying these methods in terms of their use of randomization, memory and degree of rebuild. We also present a computational comparison of these methods on solving the linear ordering problem in terms of solution quality and diversification power.

Mathematical optimizationOptimization problemDegree (graph theory)Computer sciencemedia_common.quotation_subjectCombinatorial optimization problemQuality (business)Diversification (marketing strategy)Linear orderingGlobal optimalmedia_common
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Branch-and-Bound

2010

We now turn to the discussion of how to solve the linear ordering problem to (proven) optimality. In this chapter we start with the branch-and-bound method which is a general procedure for solving combinatorial optimization problems. In the subsequent chapters this approach will be realized in a special way leading to the so-called branch-and-cut method. There are further possibilities for solving the LOP exactly, e.g. by formulating it as dynamic program or as quadratic assignment problem, but these approaches did not lead to the implementation of practical algorithms and we will not elaborate on them here.

Mathematical optimizationsymbols.namesakeBranch and boundBundle methodQuadratic assignment problemComputer scienceLagrangian relaxationCombinatorial optimization problemsymbolsLinear ordering
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