Title :
Design of a Proportional Integral Control Using Operator Theory for Infinite Dimensional Hyperbolic Systems
Author :
Dos Santos Martins, Valerie ; Yongxin Wu ; Rodrigues, M.
Author_Institution :
LAGEP, Univ. de Lyon, Lyon, France
Abstract :
This brief considers the control design of a nonlinear distributed parameter system in infinite dimension, described by the hyperbolic partial differential equations of de Saint-Venant. The nonlinear system dynamic is formulated by a multimodels approach over a wide operating range, where each local model is defined around a set of operating regimes. A new proportional integral feedback is designed and performed through bilinear operator inequality and linear operator inequality techniques for infinite dimensional systems. The new results have been simulated and also compared with previous results in finite and infinite dimension, to illustrate the new theoretical contribution.
Keywords :
PI control; bilinear systems; control system synthesis; distributed parameter systems; feedback; multidimensional systems; nonlinear control systems; partial differential equations; bilinear operator inequality; de Saint-Venant; hyperbolic partial differential equations; infinite dimensional hyperbolic systems; linear operator inequality techniques; multimodels approach; nonlinear distributed parameter system; nonlinear system dynamic; operator theory; proportional integral control design; proportional integral feedback design; Equations; Logic gates; Mathematical model; Pi control; Process control; Stability criteria; De Saint-Venant equations; internal model boundary control (IMBC); multimodels; partial differential equations (PDEs); semigroup theory; semigroup theory.;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2014.2299407
