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Conference Paper (published)

Optimizing one million variable NK landscapes by hybridizing deterministic recombination and local search

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Citation

Chicano F, Whitley D, Ochoa G & Tinós R (2017) Optimizing one million variable NK landscapes by hybridizing deterministic recombination and local search. In: GECCO '17: Proceedings of the Genetic and Evolutionary Computation Conference. GECCO 2017: The Genetic and Evolutionary Computation Conference, Berlin, Germany, 15.07.2017-19.07.2017. New York: ACM, pp. 753-760. https://doi.org/10.1145/3071178.3071285

Abstract
In gray-box optimization, the search algorithms have access to the variable interaction graph (VIG) of the optimization problem. For Mk Landscapes (and NK Landscapes) we can use the VIG to identify an improving solution in the Hamming neighborhood in constant time. In addition, using the VIG, deterministic Partition Crossover is able to explore an exponential number of solutions in a time that is linear in the size of the problem. Both methods have been used in isolation in previous search algorithms. We present two new gray-box algorithms that combine Partition Crossover with highly efficient local search. The best algorithms are able to locate the global optimum on Adjacent NK Landscape instances with one million variables. The algorithms are compared with a state-of-the-art algorithm for pseudo-Boolean optimization: Gray-Box Parameterless Population Pyramid. The results show that the best algorithm is always one combining Partition Crossover and highly efficient local search. But the results also illustrate that the best optimizer differs on Adjacent and Random NK Landscapes.

StatusPublished
Funders
Publication date31/12/2017
Publication date online31/07/2017
URL
PublisherACM
Place of publicationNew York
ISBN978-1-4503-4920-8
ConferenceGECCO 2017: The Genetic and Evolutionary Computation Conference
Conference locationBerlin, Germany
Dates

People (1)

Professor Gabriela Ochoa

Professor Gabriela Ochoa

Professor, Computing Science

Research centres/groups