Journal
APPLIED SOFT COMPUTING
Volume 10, Issue 4, Pages 1188-1199Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.asoc.2010.05.007
Keywords
Hybrid differential evolution; Cooperative metaheuristic; Memetic algorithm; Mixed discrete-continuous; Constrained optimization; Engineering design
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This paper presents two hybrid differential evolution algorithms for optimizing engineering design problems. One hybrid algorithm enhances a basic differential evolution algorithm with a local search operator, i.e., random walk with direction exploitation, to strengthen the exploitation ability, while the other adding a second metaheuristic, i.e., harmony search, to cooperate with the differential evolution algorithm so as to produce the desirable synergetic effect. For comparison, the differential evolution algorithm that the two hybrids are based on is also implemented. All algorithms incorporate a generalized method to handle discrete variables and Deb's parameterless penalty method for handling constraints. Fourteen engineering design problems selected from different engineering fields are used for testing. The test results show that: (i) both hybrid algorithms overall outperform the differential evolution algorithms; (ii) among the two hybrid algorithms, the cooperative hybrid overall outperforms the other hybrid with local search; and (iii) the performance of proposed hybrid algorithms can be further improved with some effort of tuning the relevant parameters. (C) 2010 Elsevier B. V. All rights reserved.
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