A Novel Approach to Improve the Performance of Evolutionary Methods for Nonlinear Constrained Optimization

A. Rowhanimanesh, S. Efati
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引用次数: 4

Abstract

Evolutionary methods are well-known techniques for solving nonlinear constrained optimization problems. Due to the exploration power of evolution-based optimizers, population usually converges to a region around global optimum after several generations. Although this convergence can be efficiently used to reduce search space, in most of the existing optimization methods, search is still continued over original space and considerable time is wasted for searching ineffective regions. This paper proposes a simple and general approach based on search space reduction to improve the exploitation power of the existing evolutionary methods without adding any significant computational complexity. After a number of generations when enough exploration is performed, search space is reduced to a small subspace around the best individual, and then search is continued over this reduced space. If the space reduction parameters (red_gen and red factor) are adjusted properly, reduced space will include global optimum. The proposed scheme can help the existing evolutionary methods to find better near-optimal solutions in a shorter time. To demonstrate the power of the new approach, it is applied to a set of benchmark constrained optimization problems and the results are compared with a previous work in the literature.
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一种改进非线性约束优化进化方法性能的新方法
进化方法是解决非线性约束优化问题的著名技术。由于基于进化的优化器的探索能力,种群通常在几代之后收敛到全局最优附近的一个区域。虽然这种收敛性可以有效地减少搜索空间,但在现有的大多数优化方法中,仍然在原始空间上继续搜索,并且在搜索无效区域时浪费了相当多的时间。本文提出了一种基于搜索空间约简的简单通用方法,在不增加显著计算复杂度的前提下,提高了现有进化方法的开发能力。在进行了足够多的探索之后,搜索空间被简化为最佳个体周围的小子空间,然后在这个简化的空间上继续搜索。如果空间缩减参数(red_gen和red factor)被适当调整,缩减的空间将包括全局优化。该方案可以帮助现有的进化方法在更短的时间内找到更好的近最优解。为了证明新方法的强大功能,将其应用于一组基准约束优化问题,并将结果与文献中的先前工作进行了比较。
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