2018 journal article

Placing an ensemble of pressure sensors for leak detection in water distribution networks under measurement uncertainty

Journal of Hydroinformatics, 21(2), 223–239.

By: E. Raei*, M. Shafiee, M. Nikoo* & E. Berglund n

co-author countries: Iran (Islamic Republic of) 🇮🇷 United States of America 🇺🇸
author keywords: genetic algorithm; leak detection; NSGA-II; pressure sensors; uncertainty
Source: Crossref
Added: December 15, 2019

Abstract Large volumes of water are wasted through leakage in water distribution networks, and early detection of leakages is important to minimize lost water. Pressure sensors can be placed in a network to detect changes in pressure that indicate the presence of a new leak. This study presents a new approach for placing a set of pressure sensors by creating a list of candidate locations based on sensitivity to leaks that are simulated at all potential nodes in a network. The selection of a set of sensors is explored for two objectives, which are the minimization of the number of sensors and the time of detection. The non-dominated sorting genetic algorithm (NSGA-II) is used to explore trade-offs between these objectives. The effect of measurement uncertainty on the selection of sensor locations is explored by identifying alternative non-dominated fronts for different values for sensor error. The evolutionary algorithm-based approach is applied and demonstrated for the C-Town water network.