投影修复的(μ/μI,λ)-CSA-ES在圆锥约束问题中的应用分析

IF 4.6 2区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Patrick Spettel;Hans-Georg Beyer
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引用次数: 2

摘要

进化策略的理论分析对于深入了解其内部运作是必不可少的。对于受约束的问题,目前的研究中对相当简单的问题很感兴趣。本文对应用于圆锥约束线性优化问题的具有累积步长自适应的多重组进化策略进行了理论分析。该策略的状态由随机变量建模,并引入了随机迭代映射。对于分析处理,忽略了波动,并考虑了均值迭代系统。基于一代进度率推导了非线性差分方程。在此基础上,导出了均值迭代系统稳态的表达式。通过与实际算法运行的比较,表明对于所考虑的假设,理论推导能够预测实际运行的动力学和稳态值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of the (μ/μI,λ)-CSA-ES with Repair by Projection Applied to a Conically Constrained Problem
Theoretical analyses of evolution strategies are indispensable for gaining a deep understanding of their inner workings. For constrained problems, rather simple problems are of interest in the current research. This work presents a theoretical analysis of a multi-recombinative evolution strategy with cumulative step size adaptation applied to a conically constrained linear optimization problem. The state of the strategy is modeled by random variables and a stochastic iterative mapping is introduced. For the analytical treatment, fluctuations are neglected and the mean value iterative system is considered. Nonlinear difference equations are derived based on one-generation progress rates. Based on that, expressions for the steady state of the mean value iterative system are derived. By comparison with real algorithm runs, it is shown that for the considered assumptions, the theoretical derivations are able to predict the dynamics and the steady state values of the real runs.
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来源期刊
Evolutionary Computation
Evolutionary Computation 工程技术-计算机:理论方法
CiteScore
6.40
自引率
1.50%
发文量
20
审稿时长
3 months
期刊介绍: Evolutionary Computation is a leading journal in its field. It provides an international forum for facilitating and enhancing the exchange of information among researchers involved in both the theoretical and practical aspects of computational systems drawing their inspiration from nature, with particular emphasis on evolutionary models of computation such as genetic algorithms, evolutionary strategies, classifier systems, evolutionary programming, and genetic programming. It welcomes articles from related fields such as swarm intelligence (e.g. Ant Colony Optimization and Particle Swarm Optimization), and other nature-inspired computation paradigms (e.g. Artificial Immune Systems). As well as publishing articles describing theoretical and/or experimental work, the journal also welcomes application-focused papers describing breakthrough results in an application domain or methodological papers where the specificities of the real-world problem led to significant algorithmic improvements that could possibly be generalized to other areas.
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