A new efficient entropy population-merging parallel model for evolutionary algorithms

Javier Arellano-Verdejo; Salvador Godoy-Calderon; Federico Alonso-Pecina; Adolfo Guzmán Arenas; Marco Antonio Cruz-Chavez

doi:10.2991/ijcis.10.1.78

A new efficient entropy population-merging parallel model for evolutionary algorithms

Javier Arellano-Verdejo, Salvador Godoy-Calderon, Federico Alonso-Pecina, Adolfo Guzmán Arenas, Marco Antonio Cruz-Chavez

Centro de Investigación en Computación (CIC)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

Resumen

In this paper a coarse-grain execution model for evolutionary algorithms is proposed and used for solving numerical and combinatorial optimization problems. This model does not use migration as the solution dispersion mechanism, in its place a more efficient population-merging mechanism is used that dynamically reduces the population size as well as the total number of parallel evolving populations. Even more relevant is the fact that the proposed model incorporates an entropy measure to determine how to merge the populations such that no valuable information is lost during the evolutionary process. Extensive experimentation, using genetic algorithms over a well-known set of classical problems, shows the proposed model to be faster and more accurate than the traditional one.

Idioma original	Inglés
Páginas (desde-hasta)	1186-1197
Número de páginas	12
Publicación	International Journal of Computational Intelligence Systems
Volumen	10
N.º	1
DOI	https://doi.org/10.2991/ijcis.10.1.78
Estado	Publicada - ene. 2017

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abstract = "In this paper a coarse-grain execution model for evolutionary algorithms is proposed and used for solving numerical and combinatorial optimization problems. This model does not use migration as the solution dispersion mechanism, in its place a more efficient population-merging mechanism is used that dynamically reduces the population size as well as the total number of parallel evolving populations. Even more relevant is the fact that the proposed model incorporates an entropy measure to determine how to merge the populations such that no valuable information is lost during the evolutionary process. Extensive experimentation, using genetic algorithms over a well-known set of classical problems, shows the proposed model to be faster and more accurate than the traditional one.",

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author = "Javier Arellano-Verdejo and Salvador Godoy-Calderon and Federico Alonso-Pecina and {Guzm{\'a}n Arenas}, Adolfo and Cruz-Chavez, {Marco Antonio}",

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doi = "10.2991/ijcis.10.1.78",

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AU - Arellano-Verdejo, Javier

AU - Godoy-Calderon, Salvador

AU - Alonso-Pecina, Federico

AU - Guzmán Arenas, Adolfo

AU - Cruz-Chavez, Marco Antonio

PY - 2017/1

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N2 - In this paper a coarse-grain execution model for evolutionary algorithms is proposed and used for solving numerical and combinatorial optimization problems. This model does not use migration as the solution dispersion mechanism, in its place a more efficient population-merging mechanism is used that dynamically reduces the population size as well as the total number of parallel evolving populations. Even more relevant is the fact that the proposed model incorporates an entropy measure to determine how to merge the populations such that no valuable information is lost during the evolutionary process. Extensive experimentation, using genetic algorithms over a well-known set of classical problems, shows the proposed model to be faster and more accurate than the traditional one.

AB - In this paper a coarse-grain execution model for evolutionary algorithms is proposed and used for solving numerical and combinatorial optimization problems. This model does not use migration as the solution dispersion mechanism, in its place a more efficient population-merging mechanism is used that dynamically reduces the population size as well as the total number of parallel evolving populations. Even more relevant is the fact that the proposed model incorporates an entropy measure to determine how to merge the populations such that no valuable information is lost during the evolutionary process. Extensive experimentation, using genetic algorithms over a well-known set of classical problems, shows the proposed model to be faster and more accurate than the traditional one.

KW - Evolutionary algorithms

KW - Global optimization

KW - Heuristic spatially structured

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A new efficient entropy population-merging parallel model for evolutionary algorithms

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