A splicing/decomposable encoding and its novel operators for genetic algorithms

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A splicing/decomposable encoding and its novel operators for genetic algorithms

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Genetic And Evolutionary Computation Conference archive
Proceedings of the 8th annual conference on Genetic and evolutionary computation table of contents

Seattle, Washington, USA

SESSION: Genetic algorithms: papers table of contents

Pages: 1225 - 1232

Year of Publication: 2006

ISBN:1-59593-186-4

Authors

Yong Liang	The Chinese University of Hong Kong, Shatin, N.T., HK, China
Kwong-Sak Lueng	The Chinese University of Hong Kong, Shatin, N.T., HK, China
Kin-Hong Lee	The Chinese University of Hong Kong, Shatin, N.T., HK, China

Sponsors

SIGEVO: ACM Special Interest Group on Genetic and Evolutionary Computation
ACM: Association for Computing Machinery

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ACM New York, NY, USA

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ABSTRACT

In this paper, we introduce a new genetic representation --- a splicing/decomposable (S/D) binary encoding, which was proposed based on some theoretical guidance and existing recommendations for designing efficient genetic representations. Our theoretical and empirical investigations reveal that the S/D binary representation is more proper than other existing binary encodings for searching of genetic algorithms (GAs). Moreover, we define a new genotypic distance on the S/D binary space, which is equivalent to the Euclidean distance on the real-valued space during GAs convergence. Based on the new genotypic distance, GAs can reliably and predictably solve problems of bounded complexity and the methods depended on the Euclidean distance for solving different kinds of optimization problems can be directly used on the S/D binary space.

REFERENCES

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