A test problem with difficulty in decomposing into sub-problems for model-based genetic algorithms
Pages 221 - 222
Abstract
Fully or nearly decomposable problems have been often used as test problems in genetic algorithm (GA) researches. The two types of problems have the common feature that all bits in each sub-problem are used for calculating its fitness value. The present model-based GAs appropriately decompose the whole of such a problem into parts and efficiently solve it. However, so far there has not been a test problem in which sub-problems are overlapped and bits of each sub-problem in the overlapped parts used for calculating a fitness value of the sub-problem vary depending on a bit pattern of a given solution candidate. This type of problems might cause difficulty in the decomposition to model-based GAs. In the study we propose the overlapped chains problem (OCP) as this type of problem. The results of applying several GAs to instances of the OCP show that some model-based GA cannot yield better search performance than a simple operator-based GA.
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S.-H. Hsu and T.-L. Yu. 2015. Optimization by Pairwise Linkage Detection, Incremental Linkage Set, and Restricted / Back Mixing: DSMGA-H. In Proceedings of the 2015 Annual Conference on Genetic and Evolutionary Computation (GECCO '15). 519--526.
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S. A. Kauffman and E. D. Weinberger. 1989. The NK model of rugged fitness landscapes and its application to maturation of the immune response. Theoretical Biology 141, 2 (1989), 211--245.
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Index Terms
- A test problem with difficulty in decomposing into sub-problems for model-based genetic algorithms
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Published: 08 July 2020
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