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Real-time multi-objective optimization of pump scheduling in water distribution networks using neuro-evolution

Shengwei Pei, Lan Hoang, Guangtao Fu, David Butler

2024Journal of Water Process Engineering19 citationsDOIOpen Access PDF

Abstract

Pump scheduling in water distribution networks (WDNs) influences energy efficiency and supply reliability. Recently, machine-learning technologies showed promise in real-time control. However, methods sorely focused on minimizing operational costs often limit decision-makers choices. This study introduces a real-time multi-objective optimization method for pump scheduling in WDNs employing neuro-evolution, with neural networks trained by NSGA-II. The approach explores neural network-based control policies to balance system resilience and operational cost, comparing their performance against two baseline methods using NSGA-II, i.e., scenario-specific optimization (SSO) and robust optimization (RO). Simulation results of the Anytown network show that neuro-evolution performs between SSO and RO in Pareto front hypervolume, with improved outcomes using a smaller-scale neural network and a larger population. Although neuro-evolution is inferior to RO in Pareto front sparsity, it performs better than SSO and RO in pipe failure scenarios. Under default water demand scenarios, over 99 % neuro-evolution policies effectively prevent water pressure deficiencies, surpassing SSO's 83 %. Across all testing scenarios, the least-cost neuro-evolution control policy shows a 2.7 % reduction in mean operational cost and achieves an approximately an 8 % higher minimum water supply ratio compared to RO. Neuro-evolution shows promise for multi-objective real-time scheduling but needs improved performance in Pareto front sparsity. • Exploring neuro-evolution for real-time multi-objective pump scheduling in WDNs • Analysis of factors influencing neuro-evolution for Pareto front approximation • Neuro-evolution is effective for pump operation under pipe failures.

Topics & Concepts

Scheduling (production processes)Computer scienceMathematical optimizationMathematicsWater Systems and OptimizationSmart Grid Energy ManagementWater resources management and optimization
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