Title :
Modeling for control design of a multi-reach water canal
Author :
Caiado, Daniela V. ; Lemos, Joao M. ; Igreja, J.M.
Author_Institution :
INESC-ID, Lisbon, Portugal
Abstract :
This article addresses the problem of obtaining reduced complexity models of multi-reach water delivery canals that are suitable for robust and linear parameter varying (LPV) control design. In the first stage, by applying a method known from the literature, a finite dimensional rational transfer function of a priori defined order is obtained for each canal reach by linearizing the Saint-Venant equations. Then, by using block diagrams algebra, these different models are combined with linearized gate models in order to obtain the overall canal model. In what concerns the control design objectives, this approach has the advantages of providing a model with prescribed order and to quantify the high frequency uncertainty due to model approximation. A case study with a 3-reach canal is presented, and the resulting model is compared with experimental data.
Keywords :
canals; control system synthesis; flow control; linear parameter varying systems; linearisation techniques; multidimensional systems; robust control; shallow water equations; transfer functions; uncertain systems; 3-reach canal; Saint-Venant equation linearization; approximation modelling; block diagram algebra; control design objectives; finite dimensional rational transfer function; high-frequency uncertainty quantification; linearized gate models; multireach water delivery canals; reduced complexity models; robust-LPV control design modeling; robust-linear parameter varying control design; Approximation methods; Computational modeling; Equations; Irrigation; Logic gates; Mathematical model; Transfer functions;
Conference_Titel :
Control Applications (CCA), 2014 IEEE Conference on
Conference_Location :
Juan Les Antibes
DOI :
10.1109/CCA.2014.6981534
