NSGA-II parameterization for the optimal pressure sensor location in water distribution networks

IF 1.6 3区环境科学与生态学 Q3 WATER RESOURCES

Urban Water Journal Pub Date : 2023-05-05 DOI:10.1080/1573062X.2023.2209553

Bruno Ferreira, A. Antunes, N. Carriço, D. Covas

引用次数: 0

Abstract

ABSTRACT The optimal location of pressure sensors is typicallysolved using heuristic algorithms. Non-dominated Sorting Genetic Algorithm II (NSGA-II) is one of the most used algorithms in the water industry, requiring a preliminary parameter tuning process. The lack of guidelines on how to tune model parameters generally limits the use of these algorithms by researchers or practitioners and, as such, fails to be used in real-life problems. The current paper explores different NSGA-II parameterizations for the optimal location of pressure sensors by using a multi-objective optimization methodology applied to a real distribution network. Results show that (i) both the uniform and simulated binary crossover operators (depending on the internal parameters) produce the best results, being the former recommended since it does not require further parameter tuning; (ii) polynomial mutation with lower probability value should be chosen; and (iii) the distribution indices of polynomial mutation have a minor effect on NSGA-II performance.

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配水管网压力传感器最佳位置的NSGA-II参数化

压力传感器的最优位置通常采用启发式算法求解。非支配排序遗传算法II (non - dominant Sorting Genetic Algorithm II, NSGA-II)是用水行业中应用最广泛的算法之一，该算法需要进行初步的参数调整过程。缺乏关于如何调整模型参数的指导方针通常限制了研究人员或实践者对这些算法的使用，因此无法在现实问题中使用。本文采用多目标优化方法，在实际配电网中探讨了不同的NSGA-II参数化对压力传感器最优位置的影响。结果表明:(i)均匀和模拟二元交叉算子(取决于内部参数)产生最好的结果，被推荐为前者，因为它不需要进一步的参数调整;(ii)选择概率值较低的多项式突变;(3)多项式突变分布指标对NSGA-II性能影响较小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Urban Water Journal WATER RESOURCES-

CiteScore

4.40

自引率

11.10%

发文量

101

审稿时长

3 months

期刊介绍： Urban Water Journal provides a forum for the research and professional communities dealing with water systems in the urban environment, directly contributing to the furtherance of sustainable development. Particular emphasis is placed on the analysis of interrelationships and interactions between the individual water systems, urban water bodies and the wider environment. The Journal encourages the adoption of an integrated approach, and system''s thinking to solve the numerous problems associated with sustainable urban water management. Urban Water Journal focuses on the water-related infrastructure in the city: namely potable water supply, treatment and distribution; wastewater collection, treatment and management, and environmental return; storm drainage and urban flood management. Specific topics of interest include: network design, optimisation, management, operation and rehabilitation; novel treatment processes for water and wastewater, resource recovery, treatment plant design and optimisation as well as treatment plants as part of the integrated urban water system; demand management and water efficiency, water recycling and source control; stormwater management, urban flood risk quantification and management; monitoring, utilisation and management of urban water bodies including groundwater; water-sensitive planning and design (including analysis of interactions of the urban water cycle with city planning and green infrastructure); resilience of the urban water system, long term scenarios to manage uncertainty, system stress testing; data needs, smart metering and sensors, advanced data analytics for knowledge discovery, quantification and management of uncertainty, smart technologies for urban water systems; decision-support and informatic tools;...