Genetic symbiosis algorithm for multiobjective optimization problem

Jiangming Mao; Kotaro Hirasawa; Jinglu Hu; Junichi Murata

Genetic symbiosis algorithm for multiobjective optimization problem

Jiangming Mao^*, Kotaro Hirasawa, Jinglu Hu, Junichi Murata

^*Corresponding author for this work

Research output: Contribution to conference › Paper › peer-review

Abstract

Evolutionary Algorithms are often well-suited for optimization problems. Since the mid-1980's, interest in multiobjective problems has been expanding rapidly. Various evolutionary algorithms have been developed which are capable of searching for multiple solutions concurrently in a single run. In this paper, we proposed a genetic symbiosis algorithm (GSA) for multi-object optimization problems (MOP) based on the symbiotic concept found widely in ecosystem. In the proposed GSA for MOP, a set of symbiotic parameters are introduced to modify the fitness of individuals used for reproduction so as to obtain a variety of Pareto solutions corresponding to user's demands. The symbiotic parameters are trained by minimizing a user defined criterion function. Several numerical simulations are carried out to demonstrate the effectiveness of proposed GSA.

Original language	English
Pages	137-142
Number of pages	6
Publication status	Published - 2000 Dec 1
Externally published	Yes
Event	9th IEEE International Workshop on Robot and Human Interactive Communication RO-MAN2000 - Osaka, Japan Duration: 2000 Sept 27 → 2000 Sept 29

Conference

Conference	9th IEEE International Workshop on Robot and Human Interactive Communication RO-MAN2000
Country/Territory	Japan
City	Osaka
Period	00/9/27 → 00/9/29

ASJC Scopus subject areas

Hardware and Architecture
Software

Cite this

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title = "Genetic symbiosis algorithm for multiobjective optimization problem",

abstract = "Evolutionary Algorithms are often well-suited for optimization problems. Since the mid-1980's, interest in multiobjective problems has been expanding rapidly. Various evolutionary algorithms have been developed which are capable of searching for multiple solutions concurrently in a single run. In this paper, we proposed a genetic symbiosis algorithm (GSA) for multi-object optimization problems (MOP) based on the symbiotic concept found widely in ecosystem. In the proposed GSA for MOP, a set of symbiotic parameters are introduced to modify the fitness of individuals used for reproduction so as to obtain a variety of Pareto solutions corresponding to user's demands. The symbiotic parameters are trained by minimizing a user defined criterion function. Several numerical simulations are carried out to demonstrate the effectiveness of proposed GSA.",

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AU - Mao, Jiangming

AU - Hirasawa, Kotaro

AU - Hu, Jinglu

AU - Murata, Junichi

PY - 2000/12/1

Y1 - 2000/12/1

N2 - Evolutionary Algorithms are often well-suited for optimization problems. Since the mid-1980's, interest in multiobjective problems has been expanding rapidly. Various evolutionary algorithms have been developed which are capable of searching for multiple solutions concurrently in a single run. In this paper, we proposed a genetic symbiosis algorithm (GSA) for multi-object optimization problems (MOP) based on the symbiotic concept found widely in ecosystem. In the proposed GSA for MOP, a set of symbiotic parameters are introduced to modify the fitness of individuals used for reproduction so as to obtain a variety of Pareto solutions corresponding to user's demands. The symbiotic parameters are trained by minimizing a user defined criterion function. Several numerical simulations are carried out to demonstrate the effectiveness of proposed GSA.

AB - Evolutionary Algorithms are often well-suited for optimization problems. Since the mid-1980's, interest in multiobjective problems has been expanding rapidly. Various evolutionary algorithms have been developed which are capable of searching for multiple solutions concurrently in a single run. In this paper, we proposed a genetic symbiosis algorithm (GSA) for multi-object optimization problems (MOP) based on the symbiotic concept found widely in ecosystem. In the proposed GSA for MOP, a set of symbiotic parameters are introduced to modify the fitness of individuals used for reproduction so as to obtain a variety of Pareto solutions corresponding to user's demands. The symbiotic parameters are trained by minimizing a user defined criterion function. Several numerical simulations are carried out to demonstrate the effectiveness of proposed GSA.

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T2 - 9th IEEE International Workshop on Robot and Human Interactive Communication RO-MAN2000

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ER -

Genetic symbiosis algorithm for multiobjective optimization problem

Abstract

Conference

ASJC Scopus subject areas

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