A new approach to dynamics analysis of genetic algorithms without selection

Author

Okabe, Tatsuya ; Jin, Yaochu ; Sendhoff, Bernhard

Author_Institution

Wako Res. Center, Honda R&D Co., Ltd.,, Saitama

Volume

1

fYear

2005

fDate

5-5 Sept. 2005

Firstpage

374

Abstract

Theoretical analysis of the dynamics of evolutionary algorithms is believed to be very important to understand the search behavior of evolutionary algorithms and to develop more efficient algorithms. We investigate the dynamics of a canonical genetic algorithm with one-point crossover and mutation theoretically. To this end, a new theoretical framework has been suggested in which the probability of each chromosome in the offspring population can be calculated from the probability distribution of the parent population after crossover and mutation. Empirical studies are conducted to verify the theoretical analysis. The finite population effect is also discussed. Compared to existing approaches to dynamics analysis, our theoretical framework is able to provide richer information on population dynamics and is computationally more efficient

Keywords

genetic algorithms; genetics; probability; search problems; chromosome probability distribution; evolutionary algorithm dynamics; genetic algorithm dynamics; mutation; offspring population; one-point crossover; parent population; population dynamics; search behavior; Algorithm design and analysis; Biological cells; Convergence; Europe; Evolutionary computation; Genetic algorithms; Genetic mutations; Information analysis; Probability; Research and development;

fLanguage

English

Publisher

ieee

Conference_Titel

Evolutionary Computation, 2005. The 2005 IEEE Congress on

Conference_Location

Edinburgh, Scotland

Print_ISBN

0-7803-9363-5

Type

conf

DOI

10.1109/CEC.2005.1554708

Filename

1554708