基于自增强种群多样性和排序选择的差分进化算法在配水系统优化设计中的应用

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-07-17 DOI:10.2166/aqua.2023.075
Kun Du, Bang Xiao, Wei Xu, Zilian Liu, Z. Song, Zhiyi Tang, Feifei Zheng
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引用次数: 0

摘要

差分进化算法(DE)被认为是最有效的配水系统优化设计进化算法。然而,在处理大规模WDS优化时,过早收敛等问题就成为一个问题。本文提出了一种基于自增强种群多样性和排名选择的差分进化(AEPD- rsde)算法用于WDS优化设计,这是首次将AEPD策略引入到WDS优化设计中,避免了种群多样性和排名选择的过早收敛问题,增强了种群多样性在WDS优化中的探索能力。此外,该算法还采用排名选择策略取代锦标赛选择算子,提高了收敛速度。三个著名的wds,即纽约隧道(NYT),河内网络(HAN)和Balerma灌溉网络(BIN),被用来验证所提出的算法。结果表明,所提出的算法能够找到当前的最佳解决方案,NYT和HAN案例的成功率为100%,并且相对于其他ea, BIN案例的平均成本较低,为192.4万欧元。不同的突变和选择操作符之间进行搜索行为分析,而不是仅仅关注最终的性能比较,为指导更高级的ea的开发提供了深入的见解。
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Auto-enhanced population diversity and ranking selection-based differential evolutionary algorithm applied to the optimal design of water distribution system
Differential evolution (DE) algorithm is considered the most powerful evolutionary algorithm (EA) for the optimal design of water distribution systems (WDSs). However, when dealing with large-scale WDS optimization, issues such as premature convergence become a concern. This paper presents an auto-enhanced population diversity and ranking selection-based differential evolutionary (AEPD-RSDE) algorithm for the optimal design of WDSs, which is the first work that incorporates an AEPD strategy to avoid the premature convergence issue and enhance the exploration ability of DE applied to WDS optimization. Besides, the proposed algorithm includes a ranking selection strategy that replaces the tournament selection operator to enhance the convergence speed. Three well-known WDSs, i.e., the New York Tunnels (NYT), the Hanoi network (HAN), and the Balerma irrigation network (BIN), were used to validate the proposed algorithm. Results indicate the proposed algorithm is able to find the current best solution with a success rate of 100% for the NYT and HAN cases and a lower average cost solution of €1.924 million for the BIN case relative to other EAs. Instead of solely focusing on ultimate performance comparison, search behavior analyses are conducted between different mutation and selection operators, offering a deep insight to guide the development of more advanced EAs.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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