Control of water distribution networks using convex approximations: WIP abstract

Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems Pub Date : 2019-04-16 DOI:10.1145/3302509.3313311

Shen Wang, A. Taha, Nikolaos Gatsis, M. Giacomoni

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Abstract

The status quo of control in water distribution networks (WDN) relies on simple, rule-based control strategies to operate pumps and valves. For example, pumps are switched on/off if a tank's water level---a local measurement---is below/above a certain threshold. As an alternative to localized, rule-based control, network-driven control that utilize WDN topology and measurements can be beneficial. Unfortunately, network-driven control of WDNs is very difficult as hydraulic models are nonconvex, valve and pump models form non-trivial, combinatorial logic, and water demand patterns are uncertain. Prior research on control of WDNs addressed major research challenges, yet mostly adopted simplified hydraulic models, WDN topologies, and rudimentary valve/pump modeling. This Work-in-Progress showcases the potential of network-driven control of WDNs. The proposed approach amounts to solving a series of convex optimization problems that graciously scale to large networks. Simple case studies are included showcasing early results, and applications of the proposed optimization methods to other WDN applications are discussed.

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用凸逼近控制配水网络:在制品文摘

供水管网(WDN)的控制现状依赖于简单的、基于规则的控制策略来操作水泵和阀门。例如，如果水箱的水位(当地测量值)低于/高于某一阈值，水泵就会打开/关闭。作为本地化的、基于规则的控制的替代方案，利用WDN拓扑和测量的网络驱动控制可能是有益的。不幸的是，网络驱动的wdn控制非常困难，因为水力模型是非凸的，阀和泵模型形成非平凡的组合逻辑，并且水需求模式是不确定的。先前对水网络控制的研究解决了主要的研究挑战，但大多采用简化的水力模型、水网络拓扑和基本的阀/泵建模。这项正在进行的工作展示了网络驱动的wdn控制的潜力。所提出的方法相当于解决一系列凸优化问题，优雅地扩展到大型网络。简单的案例研究展示了早期的结果，并讨论了所提出的优化方法在其他WDN应用中的应用。

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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Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems

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