A heuristic for the time constrained asymmetric linear sum assignment problem

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Brown, Peter
Yang, Yuedong
Zhou, Yaoqi
Pullan, Wayne
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2017
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Abstract

The linear sum assignment problem is a fundamental combinatorial optimisation problem and can be broadly defined as: given an n×m,m≥n benefit matrix B=(bij) , matching each row to a different column so that the sum of entries at the row-column intersections is maximised. This paper describes the application of a new fast heuristic algorithm, Asymmetric Greedy Search, to the asymmetric version ( n≠m ) of the linear sum assignment problem. Extensive computational experiments, using a range of model graphs demonstrate the effectiveness of the algorithm. The heuristic was also incorporated within an algorithm for the non-sequential protein structure matching problem where non-sequential alignment between two proteins, normally of different numbers of amino acids, needs to be maximised.

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Journal of Combinatorial Optimization

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© 2017 Springer US. This is an electronic version of an article published in Journal of Combinatorial Optimization, 2017, Volume 33, Issue 2, pp 551–566. Journal of Combinatorial Optimization is available online at: http://link.springer.com/ with the open URL of your article.

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Pure mathematics

Applied mathematics

Applied mathematics not elsewhere classified

Numerical and computational mathematics

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