Control of Parallel Population Dynamics by Social-Like Behavior of GA-Individuals

A frequently observed difficulty in the application of genetic algorithms to the domain of optimization ariscs from premature convergence. In order to preserve genotype diversity we develop a new model of auto-adaptive behavior for individuals. In this model a population member is an active individual that assumes social-like behavior patterns. Different individuals living in the same population can assume different patterns. By moving in a hierarchy of "social states" individuals change their behavior. Changes of social state are controlled by arguments of plausibility. These arguments are implemented as a rule set for a massively-parallel genetic algorithm. Computational experiments on 12 large-scale job shop benchmark problems show that the results of the new approach dominate the ordinary genetic algorithm significantly.

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Year of publication:	1994
Authors:	Bierwirth, Christian ; Kopfer, Herbert ; Mattfeld, Dirk C.
Institutions:	Universität <Bremen> / Lehrstuhl für Logistik
Subject:	Logistik \| logistics \| Genetischer Algorithmus \| genetic algorithm

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Extent:	166912 bytes 11 p. application/pdf
Series:	Universität Bremen - Lehrstuhl für Logistik - Publikationen Davidor, Y./Schwefel, H.P./Maenner, R. (Eds.): Parallel Problem Solving from Nature III, Springer-Verlag, Berlin Heidelberg, 1994, pp. 15-24
Type of publication:	Book / Working Paper
Language:	English
Classification:	Lot sizing and Scheduling ; Individual Working Papers, Preprints ; Individual Articles ; No country specification
Source:	USB Cologne (business full texts)

Persistent link: https://ebvufind01.dmz1.zbw.eu/10005840465