The acceleration of evolutionary computations using fitness estimation

Evolutionary computation (EC) is widely applied to various kinds of combinatorial optimization problems. ECs are generally time-consuming because they need much trial and error. To accelerate ECs, some modification methods of the genetic operator have been proposed, such as improving mutation and re...

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Published in1999 IEEE/ASME International Conference on Advanced Intelligent Mechatronics proceedings : AIM '99, September 19-23, 1999, Renaissance Atlanta Hotel, Atlanta, Georgia, USA pp. 776 - 781
Main Authors Hanaki, Y., Hashiyama, T., Okuma, S.
Format Conference Proceeding
LanguageEnglish
Japanese
Published IEEE 1999
Subjects
Acceleration
Biological cells
Computational modeling
Costs
Estimation error
Evolutionary computation
Fuzzy logic
Genetic mutations
Genetic programming
Robots
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ISBN0780350383
9780780350380
DOI10.1109/AIM.1999.803266

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Summary:Evolutionary computation (EC) is widely applied to various kinds of combinatorial optimization problems. ECs are generally time-consuming because they need much trial and error. To accelerate ECs, some modification methods of the genetic operator have been proposed, such as improving mutation and recombination of chromosomes and/or their control parameters and so on. Through these modifications, ECs can find the suboptimal solutions in the relatively early generations. In spite of these improvements, ECs still require much time to obtain the solution. In many engineering applications of ECs, fitness evaluation spent the most computational time. This paper presents a new approach for the acceleration of ECs by reducing the time for fitness evaluation. Saving the time for fitness evaluation results in accelerating the ECs in the time domain. In the proposed method, only one individual of the population is actually evaluated in each generation. Fitness values for the rest of the population are estimated with simple calculation. Although the errors of estimation may decelerate the ECs in the generation domain, saving time in the evaluation scheme will exceed the deceleration. As a result, we can obtain a suboptimal solution relatively faster. The simulation results of designing the fuzzy logic controller using GA shows the effectiveness of the proposed method to accelerate the evolution in the time domain using estimated evaluation.
ISBN:0780350383
9780780350380
DOI:10.1109/AIM.1999.803266