基于 GA 的最大拉丁超立方设计构建,用于具有动态策略管理的不确定性实验设计

IF 7.2 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Applied Soft Computing Pub Date : 2024-11-10 DOI:10.1016/j.asoc.2024.112454
Dong Liu , Shaoping Wang , Jian Shi , Di Liu
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引用次数: 0

摘要

灵活构建最大化拉丁超立方设计(LHDs)可解决最大多样性问题(MDP)这一 NP 难题。传统算法,如遗传算法(GA),面临着过早收敛和优化性能有限等挑战,特别是由于需要调整的超参数数量较多,以及它们在不同问题领域的通用能力有限。因此,本文提出了一种自适应方法,称为具有动态策略管理的 GA,用于灵活高效地构建最大 LHD。该方法基于过早收敛预测、动态触发优化策略和性能控制。此外,种群初始化和选择、交叉、变异和局部搜索等几乎所有关键因素都涉及到这一框架中。通过将该方法与 LHD 构建技术(模拟退火、增强随机进化和拉丁超立方粒子群优化)以及自适应遗传算法和最先进的元启发式算法进行比较,该算法因其优化的结构自组织而表现出卓越的性能。
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GA based construction of maximin latin hypercube designs for uncertainty design of experiment with dynamic strategy management
Flexible construction of maximin Latin Hypercube Designs (LHDs) meets the NP-hard problem known as the Maximum Diversity Problem (MDP). Traditional algorithms, such as Genetic Algorithms (GAs), face challenges like premature convergence and limited optimization performance, particularly due to the number of hyperparameters that require to be tuned and their limited ability to generalize across diverse problem domains. Thus, this paper proposed a self-adaptive method called GA with Dynamic Strategy Management for the flexibly and efficient construction of maximum LHDs. This method is based on premature convergence prediction, dynamic triggered optimization strategies, and performance control. Furthermore, nearly all critical factor, such as population initialization and selection, crossover, mutation, and local search, are involved in this framework. By comparing this method to LHD construction techniques (Simulated Annealing, Enhanced Stochastic Evolution, and Latin Hypercube Particle Swarm Optimization), as well as the adaptive GAs and state-of-the-art metaheuristics, the algorithm demonstrates superior performance due to its optimized structural self-organization.
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来源期刊
Applied Soft Computing
Applied Soft Computing 工程技术-计算机:跨学科应用
CiteScore
15.80
自引率
6.90%
发文量
874
审稿时长
10.9 months
期刊介绍: Applied Soft Computing is an international journal promoting an integrated view of soft computing to solve real life problems.The focus is to publish the highest quality research in application and convergence of the areas of Fuzzy Logic, Neural Networks, Evolutionary Computing, Rough Sets and other similar techniques to address real world complexities. Applied Soft Computing is a rolling publication: articles are published as soon as the editor-in-chief has accepted them. Therefore, the web site will continuously be updated with new articles and the publication time will be short.
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