This paper deals with an ecological model on planer gird of a genetic algorithm based on vi-rus theory of evolution (E-VE-GA). In the E-VE-GA, each individual is placed on a planer grid and genetic operators are performed between neighborhoods. The E-VE-GA can self-adaptively change searching ratio between global and local searches. The main operator of the E-VE-GA is reserve transcription and incorporation transmitting local genetic information. The convergence of the E-VE-GA depends on the frequency and localization of the virus in-fection. In this paper, we apply the E-VA-GA to traveling salesman problems and discuss the coevolution of host and virus populations through the numerical simulation.
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The paper overviews existing models and new tendencies observed in the current literature concerning parallel and distributed evolutionary computation. Sources of parallelism, ways of exploring it and forms of a distributed control of execution of parallel evolutionary algorithms are discussed. Some taxonomy of parallel and distributed computation is proposed. The most known or promising computational schemes are overviewed.
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