Add to ORKGIn this paper an LPV non-integer order control model of an irrigation canal is derived from system identification experiments. This model is experimentally obtained by using the described LPV fractional identification procedure. This procedure consists on the identification of a non-linear order model in each operation point of the canal. The global LPV model is obtained by the polynomial interpolation of the parameters of the local models. The validation results show that fractional models are more accurate than integer models. Therefore the fractional models have an important role to play in management and efficient use of water resources
This article addresses the problem of obtaining reduced complexity models of multi-reach water deliv...
The main goal of this paper is to expose and validate a method-ology to design efficient automatic c...
This contribution is focused on graphical investigation of robust stability for a feedback control l...
In this paper an LPV rational order control model of an irrigation canal is experimentally obtained ...
In this paper a fractional order model for an irrigation main canal is proposed. It is based on the ...
In this paper a two-input, two-output (TITO) fractional order mathematical model of a laboratory pro...
Canal systems are complex nonlinear, distributed parameter systems with changing parameters accordin...
Irrigation canals are open-flow water hydraulic systems, whose objective is mainly to convey water f...
Irrigation canals are open-flow water hydraulic systems, whose objective is mainly to convey water f...
[Abstract] This paper discusses the identification of hydraulic canal system with a fractional-order...
Water level regulation of irrigation canals represents a major challenge for control systems design...
This article addresses the problem of designing an LPV controller for a water delivery canal based o...
Canal systems are complex nonlinear, distributed parameter systems with changing parameters accordin...
This report gives some guidance on how to obtain black-box models of irrigation canal reaches, using...
This thesis aims to develop control algorithms for irrigation canals in an experimental framework.Th...
This article addresses the problem of obtaining reduced complexity models of multi-reach water deliv...
The main goal of this paper is to expose and validate a method-ology to design efficient automatic c...
This contribution is focused on graphical investigation of robust stability for a feedback control l...
In this paper an LPV rational order control model of an irrigation canal is experimentally obtained ...
In this paper a fractional order model for an irrigation main canal is proposed. It is based on the ...
In this paper a two-input, two-output (TITO) fractional order mathematical model of a laboratory pro...
Canal systems are complex nonlinear, distributed parameter systems with changing parameters accordin...
Irrigation canals are open-flow water hydraulic systems, whose objective is mainly to convey water f...
Irrigation canals are open-flow water hydraulic systems, whose objective is mainly to convey water f...
[Abstract] This paper discusses the identification of hydraulic canal system with a fractional-order...
Water level regulation of irrigation canals represents a major challenge for control systems design...
This article addresses the problem of designing an LPV controller for a water delivery canal based o...
Canal systems are complex nonlinear, distributed parameter systems with changing parameters accordin...
This report gives some guidance on how to obtain black-box models of irrigation canal reaches, using...
This thesis aims to develop control algorithms for irrigation canals in an experimental framework.Th...
This article addresses the problem of obtaining reduced complexity models of multi-reach water deliv...
The main goal of this paper is to expose and validate a method-ology to design efficient automatic c...
This contribution is focused on graphical investigation of robust stability for a feedback control l...