Add to ORKGA case study on the use of a predictive adaptive algorithm to control pool level in a pilot water distribuition canal is described. The algorithm is a modification of the basic MUSMAR controller that includes parallel integral action and, in the case of multiple pools, feedforward action to coordinate the gates. Experimental results in the case of a single pool and simulations for multiple pools are presented. The contributions of the paper stem from the explicitation of rules for tuning the adaptive controller in a practical situation and from the coordination of different pools using reduced complexity controllers and feedforward in a multivariable settin
This paper presents the design of a predictive controller for decentralized control of delivery cana...
Water delivery systems usually work in continuous way based on some prescribed flow conditions and u...
The performance achieved with both adaptive and non-adaptative Model Predictive Control (MPC) when a...
This paper concerns to the application of adaptive control to a large scale water canal experimental...
This paper presents the first experimental results of a model predictive controller designed to cont...
The performance achieved with both adaptive and non-adaptive Model Predictive Control (MPC) when app...
This paper applies a model predictive controller (MPC) to an automatic water canal with sensors and ...
This paper presents the formulation of a multivariable controller for centralized control of canals ...
International audienceThis paper presents a real-time implementation of a multivariable predictive c...
‘l’his paper presents a digital control scheme for water level rc:gulat.ion in canals. The scheme co...
Saving water is an economic and ecological need. One way to save water is to reduce losses in irriga...
In this paper, automatic control of the water level in an irrigation canal by automatic regulation o...
Abstract: Canals or open channels that convey water often consist of pools in series separated by co...
This paper presents the formulation of a multivariable controller for centralized control of canals ...
Automatic control of irrigation canals can reduce the loss of water in considerable amounts, therefo...
This paper presents the design of a predictive controller for decentralized control of delivery cana...
Water delivery systems usually work in continuous way based on some prescribed flow conditions and u...
The performance achieved with both adaptive and non-adaptative Model Predictive Control (MPC) when a...
This paper concerns to the application of adaptive control to a large scale water canal experimental...
This paper presents the first experimental results of a model predictive controller designed to cont...
The performance achieved with both adaptive and non-adaptive Model Predictive Control (MPC) when app...
This paper applies a model predictive controller (MPC) to an automatic water canal with sensors and ...
This paper presents the formulation of a multivariable controller for centralized control of canals ...
International audienceThis paper presents a real-time implementation of a multivariable predictive c...
‘l’his paper presents a digital control scheme for water level rc:gulat.ion in canals. The scheme co...
Saving water is an economic and ecological need. One way to save water is to reduce losses in irriga...
In this paper, automatic control of the water level in an irrigation canal by automatic regulation o...
Abstract: Canals or open channels that convey water often consist of pools in series separated by co...
This paper presents the formulation of a multivariable controller for centralized control of canals ...
Automatic control of irrigation canals can reduce the loss of water in considerable amounts, therefo...
This paper presents the design of a predictive controller for decentralized control of delivery cana...
Water delivery systems usually work in continuous way based on some prescribed flow conditions and u...
The performance achieved with both adaptive and non-adaptative Model Predictive Control (MPC) when a...