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A novel optimization framework for efficiently identifying high-quality Pareto-optimal solutions: maximizing resilience of water distribution systems under cost constraints

Author

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  • Du, Kun
  • Yang, Shucheng
  • Xu, Wei
  • Zheng, Feifei
  • Duan, Huanfeng

Abstract

The design of water distribution systems (WDS) presents a classic multi-objective engineering optimization problem, involving maximizing network resilience within cost constraints. While multi-objective evolutionary algorithms (MOEAs) perform well in small WDS optimizations, they often yield low-quality Pareto optimal solutions (POSs) for large-scale networks. This paper proposes a novel optimization framework with the newly developed Localized Search Differential Evolution Algorithm (LS-DEA) for efficiently identifying high-quality POSs. The framework conducts sequential single-objective optimizations with a tailored objective function to improve resilience under cost constraints. LS-DEA employs a redesigned selection strategy to handle hydraulic and cost constraints simultaneously, achieving the optimization goal. Validation on three benchmark networks demonstrates that the proposed framework outperforms traditional MOEAs, particularly in finding low-cost POSs for large-scale WDS optimizations. It can also be readily applied to efficiently identify optimal solutions that maximize network resilience for a given cost, highlighting its practical value and versatility in engineering applications. Analysis of search behavior reveals that MOEAs, such as NSGA-II, are limited by their exploratory search due to the non-dominated sorting strategy. In contrast, LS-DEA excels in exploitative search through refined strategies, efficiently identifying high-quality POSs within specified cost constraints.

Suggested Citation

  • Du, Kun & Yang, Shucheng & Xu, Wei & Zheng, Feifei & Duan, Huanfeng, 2025. "A novel optimization framework for efficiently identifying high-quality Pareto-optimal solutions: maximizing resilience of water distribution systems under cost constraints," Reliability Engineering and System Safety, Elsevier, vol. 261(C).
    • Handle: RePEc:eee:reensy:v:261:y:2025:i:c:s0951832025003370
    DOI: 10.1016/j.ress.2025.111136
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    References listed on IDEAS

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    1. Krpelik, Daniel & Vrtal, Matej & Bris, Radim & Praks, Pavel & Fujdiak, Radek & Toman, Petr, 2026. "Multi-objective optimization of smart grid operations via preventive maintenance scheduling using time-dependent unavailability," Reliability Engineering and System Safety, Elsevier, vol. 265(PA).
    2. Yiying Du & Chaoyue Zhang & Rong Wei & Li Cao & Tiantian Zhao & Wene Wang & Xiaotao Hu, 2025. "Multi-Objective Optimal Scheduling of Water Transmission and Distribution Channel Gate Groups Based on Machine Learning," Agriculture, MDPI, vol. 15(13), pages 1-23, June.
    3. Muhammad Amir Raza & Abdul Karim & Mohammed Alqarni & Mahmoud Ahmad Al-Khasawneh & Touqeer Ahmed Jumani & Mohammed Aman & Muhammad I. Masud, 2025. "An Intelligent Long Short-Term Memory-Based Machine Learning Model for the Potential Assessment of Global Hydropower Capacity in Sustainable Energy Transition and Security," Energies, MDPI, vol. 18(13), pages 1-27, June.
    4. Zhenzhen Song & M. Mehdi Shafieezadeh, 2026. "Multi-Criteria Decision Analysis of Water–Energy Strategies for Sustainability," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 40(3), pages 1-18, February.
    5. Alisson Lopes Rodrigues & Ricardo Santos Silva Amorim & Pedro Manuel Villa, 2026. "System Dynamics Model for Assessing the Water Dynamics and the Capacity of Large Reservoirs to Supply Multiple Uses," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 40(1), pages 1-23, January.
    6. Xing, Zheng & Zhou, Chenhao & Shen, Yu & Chew, Ek Peng & Tan, Kok Choon, 2026. "Optimizing port system resilience through integrated preparedness and recovery strategies," Reliability Engineering and System Safety, Elsevier, vol. 266(PB).

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