Self-Adaptation in Evolving Systems

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A theoretical and experimental analysis is made of the eﬀects of self-adaptation in a simple evolving system. Speciﬁcally, we consider the eﬀects of coding the mutation and crossover probabilities of a genetic algorithm evolving in certain model ﬁtness landscapes. The resultant genotype-phenotype mapping is degenerate, there being no direct selective advantage for one probability versus another. We show that the action of mutation and crossover breaks this degeneracy leading to an induced symmetry breaking among the genotypic synonyms. We demonstrate that this induced symmetry breaking allows the system to self-adapt in a time dependent environment.

Christopher R. Stephens, I. Garcia Olmedo, J. Mora

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ALIFE 1998 | Certain Model ﬁtness | Crossover Probabilities | Direct Selective Advantage | Modeling And Simulation |

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Added	21 Dec 2010
Updated	21 Dec 2010
Type	Journal
Year	1998
Where	ALIFE
Authors	Christopher R. Stephens, I. Garcia Olmedo, J. Mora Vargas, Henri Waelbroeck

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Self-Adaptation in Evolving Systems

ALIFE 1998 | Certain Model ﬁtness | Crossover Probabilities | Direct Selective Advantage | Modeling And Simulation |

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