Add to ORKGWater networks are large-scale systems, consisting of many interacting components. They are currently typically operated by local decentralized controllers which receive setpoints from human operators. We discuss how communication among the local controllers can be included and in particular propose the use of distributed model predictive control for enabling the local controllers to determine setpoints autonomously using communication and coordination. We consider the control of a particular class of water networks, viz. irrigation canals. A simulation study on a 7-reach irrigation canal illustrates the potential of the proposed approach
This paper presents the formulation of a multivariable controller for centralized control of canals ...
Optimization techniques have played a fundamental role in designing automatic control systems for th...
This paper proposes a distributed model predictive control approach designed to work in a cooperativ...
Water networks are large-scale systems, consisting of many interacting components. They are currentl...
Abstract—Water networks are large-scale systems, consisting of many interacting components. They are...
Irrigation canals are large-scale systems, covering vast geographical areas, and consisting of many ...
Irrigation canals are large-scale systems, covering vast geographical areas, and consisting of many ...
Irrigation canals transport water from water sources (such as large rivers and lakes) to water users...
International audienceThis paper presents the application of the multiagent paradigm to a distribute...
This paper develops a non-iterative, distributed model predictive control (MPC) algorithm suitable f...
Abstract-Urban water supply networks are large-scale systems that transport potable water over vast ...
53rd IEEE Conference on Decision and Control. 15-17 Dec. 2014 Los Angeles, CA, USAIn this work, we ...
This paper proposes a distributed model predictive control approach designed to work in a cooperativ...
Urban water supply networks are large-scale systems that transport potable water over vast geographi...
Urban water supply networks are large-scale systems that transport potable water over vast geographi...
This paper presents the formulation of a multivariable controller for centralized control of canals ...
Optimization techniques have played a fundamental role in designing automatic control systems for th...
This paper proposes a distributed model predictive control approach designed to work in a cooperativ...
Water networks are large-scale systems, consisting of many interacting components. They are currentl...
Abstract—Water networks are large-scale systems, consisting of many interacting components. They are...
Irrigation canals are large-scale systems, covering vast geographical areas, and consisting of many ...
Irrigation canals are large-scale systems, covering vast geographical areas, and consisting of many ...
Irrigation canals transport water from water sources (such as large rivers and lakes) to water users...
International audienceThis paper presents the application of the multiagent paradigm to a distribute...
This paper develops a non-iterative, distributed model predictive control (MPC) algorithm suitable f...
Abstract-Urban water supply networks are large-scale systems that transport potable water over vast ...
53rd IEEE Conference on Decision and Control. 15-17 Dec. 2014 Los Angeles, CA, USAIn this work, we ...
This paper proposes a distributed model predictive control approach designed to work in a cooperativ...
Urban water supply networks are large-scale systems that transport potable water over vast geographi...
Urban water supply networks are large-scale systems that transport potable water over vast geographi...
This paper presents the formulation of a multivariable controller for centralized control of canals ...
Optimization techniques have played a fundamental role in designing automatic control systems for th...
This paper proposes a distributed model predictive control approach designed to work in a cooperativ...