Fuzzy system identification through hybrid genetic algorithms

Author

Martins, Alfredo ; Pacheco, R.C.S.

fYear

1997

fDate

21-24 Sep 1997

Firstpage

428

Lastpage

433

Abstract

Proposes a new hybrid genetic algorithm for fuzzy system learning. The algorithm is based on Baldwin´s (1896) effect, with the inclusion of biological principles of learning. Rather than considering mutation as a stochastic event, we take into account the results of biological experiences that seem to indicate an individual capability to choose the best mutation. The proposed adaptive model consists of two levels: (a) an evolutionary or global level, which works on the generation of populations at the genetic code level; and (b) a learning or local level, which works during the lifetime of the agents, with the individuals reacting to environmental stimuli. The method has been applied in well-known learning problems, with strong supremacy over other hybrid genetic approaches, particularly in terms of the expressiveness of the learned fuzzy system

Keywords

biocybernetics; evolution (biological); fuzzy systems; genetic algorithms; genetics; identification; learning (artificial intelligence); Baldwin´s effect; adaptive model; agent lifetime; biological learning principles; environmental stimuli; evolutionary level; expressiveness; fuzzy system identification; fuzzy system learning; genetic code level; global level; hybrid genetic algorithms; individual selection; learning level; local level; mutation; population generation; Adaptive systems; Animals; Biological information theory; Biological system modeling; Fuzzy systems; Genetic algorithms; Genetic mutations; Mathematical model; Production engineering; Stochastic processes;

fLanguage

English

Publisher

ieee

Conference_Titel

Fuzzy Information Processing Society, 1997. NAFIPS '97., 1997 Annual Meeting of the North American

Conference_Location

Syracuse, NY

Print_ISBN

0-7803-4078-7

Type

conf

DOI

10.1109/NAFIPS.1997.624079

Filename

624079