Two‐phase sub population genetic algorithm for parallel machine-scheduling problem
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摘要
This paper introduces a two‐phase sub population genetic algorithm to solve the parallel machine-scheduling problem. In the first phase, the population will be decomposed into many sub-populations and each sub-population is designed for a scalar multi-objective. Sub-population is a new approach for solving multi-objective problems by fixing each sub-population for a pre-determined criterion. In the second phase, non-dominant solutions will be combined after the first phase and all sub-population will be unified as one big population. Not only the algorithm merges sub-populations but the external memory of Pareto solution is also merged and updated. Then, one unified population with each chromosome search for a specific weighted objective during the next evolution process. The two phase sub-population genetic algorithm is applied to solve the parallel machine-scheduling problems in testing of the efficiency and efficacy. Experimental results are reported and the superiority of this approach is discussed.
论文关键词:Scheduling problem,Genetic algorithm,Multi-objective optimization,Evolution strategy
论文评审过程:Available online 11 May 2005.
论文官网地址:https://doi.org/10.1016/j.eswa.2005.04.033