Iterative Dynamic Diversity Evolutionary Algorithm for Constrained Optimization

Q2 Computer Science 自动化学报 Pub Date : 2014-11-01 DOI:10.1016/S1874-1029(14)60398-0
Wei-Shang GAO , Cheng SHAO
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引用次数: 3

Abstract

Evolutionary algorithms (EAs) were shown to be effective for complex constrained optimization problems. However, inflexible exploration in general EAs would lead to losing the global optimum nearby the ill-convergence regions. In this paper, we propose an iterative dynamic diversity evolutionary algorithm (IDDEA) with contractive subregions guiding exploitation through local extrema to the global optimum in suitable steps. In IDDEA, a novel optimum estimation strategy with multi-agents evolving diversely is suggested to efficiently compute dominance trend and establish a subregion. In addition, a subregion converging iteration is designed to redistrict a smaller subregion in current subregion for next iteration, which is based on a special dominance estimation scheme. Meanwhile, an infimum penalty function is embedded into IDDEA to judge agents and penalize adaptively the unfeasible agents with the lowest fitness of feasible agents. Furthermore, several engineering design optimization problems taken from the specialized literature are successfully solved by the present algorithm with high reliable solutions.

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约束优化的迭代动态多样性进化算法
进化算法是求解复杂约束优化问题的有效方法。然而,一般ea的不灵活勘探会导致在非收敛区域附近失去全局最优。本文提出了一种具有收缩子区域的迭代动态多样性进化算法(IDDEA),该算法指导开发通过局部极值,以适当的步骤达到全局最优。在IDDEA中,提出了一种多智能体多样化进化的最优估计策略,以有效地计算优势趋势并建立子区域。此外,基于一种特殊的优势估计方案,设计了子区域收敛迭代,将当前子区域中较小的子区域重新划分到下一次迭代中。同时,在IDDEA中嵌入一个最小惩罚函数,对智能体进行判断,并对可行智能体适应度最低的不可行智能体进行自适应惩罚。此外,该算法还成功地求解了一些专业文献中的工程设计优化问题,解的可靠性较高。
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来源期刊
自动化学报
自动化学报 Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
4.80
自引率
0.00%
发文量
6655
期刊介绍: ACTA AUTOMATICA SINICA is a joint publication of Chinese Association of Automation and the Institute of Automation, the Chinese Academy of Sciences. The objective is the high quality and rapid publication of the articles, with a strong focus on new trends, original theoretical and experimental research and developments, emerging technology, and industrial standards in automation.
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