Using mobile and fixed sensors for optimal monitoring of water distribution network under dynamic water quality simulations
Author:
Publisher
Elsevier BV
Subject
Transportation,Renewable Energy, Sustainability and the Environment,Civil and Structural Engineering,Geography, Planning and Development
Reference37 articles.
1. Real-time monitoring of total residual chlorine in water distribution system based on micro-electro-chemical-sensor;Banks,2012
2. A foundational framework for smart sustainable city development: Theoretical, disciplinary, and discursive dimensions and their synergies;Bibri;Sustainable Cities and Society,2018
3. Optimal sensor placement for contamination detection: A multi-objective and probabilistic approach;Cardoso;Environmental Modelling & Software,2021
4. Reducing impacts of contamination in water distribution networks: A combined strategy based on network partitioning and installation of water quality sensors;Ciaponi;Water,2019
5. Value of information in the design of resilient water distribution sensor networks;Comboul;Journal of Water Resources Planning and Management,2013
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