Title :
A nonlinear backstepping like controller for a three-point collocation model of water flow dynamics
Author :
BesanÇon, Gildas ; Dulhoste, Jean-François ; Georges, Didier
Author_Institution :
Lab. d´´Automatique de Grenoble, ENSIEG, St. Martin d´´Heres, France
Abstract :
This paper deals with the nonlinear control of irrigation canals or dam-river systems. Open-channel dynamics are based on the well-known Saint-Venant nonlinear partial differential equations. Here, the finite-dimensional model we (2001) previously developed, which is based on a collocation Galerkin method together with the functional approximation by Lagrange polynomials, is used as a basic model for the control. In our previous paper we showed how such a model is much more tractable than those obtained from classical finite-difference or finite-element methods (from the viewpoint of both state dimension and structure) and well suited for control purposes. In this paper we show how this model can be used to design a nonlinear controller using the backstepping technique for controlling the water levels along an open-channel reach, and present some simulations of the system using the obtained controller
Keywords :
distributed parameter systems; flow control; hydrodynamics; multidimensional systems; natural resources; nonlinear control systems; partial differential equations; backstepping; collocation methods; dam-river systems; distributed system; finite dimensional model; hydraulic systems; irrigation canals; nonlinear control systems; open-channel; partial differential equations; Backstepping; Control systems; Finite difference methods; Finite element methods; Irrigation; Lagrangian functions; Moment methods; Nonlinear control systems; Partial differential equations; Polynomials;
Conference_Titel :
Control Applications, 2001. (CCA '01). Proceedings of the 2001 IEEE International Conference on
Conference_Location :
Mexico City
Print_ISBN :
0-7803-6733-2
DOI :
10.1109/CCA.2001.973860
