Title :
Boundary stabilization of distributed parameter systems governed by symmetric linear hyperbolic system using backstepping approach
Author :
Liu Jun-Jun ; Wang Jun-Min
Author_Institution :
Sch. of Math., Beijing Inst. of Technol., Beijing, China
Abstract :
In this paper, we are concerned with the frequency and time domain behavior of a heat exchanger network system. The system is governed by first-order symmetric hyperbolic linear partial differential equations with spatially varying coefficients. We use a backstepping approach to transform the system into a target system which has arbitrary decay rate. The state feedback is thus designed. It is shown that the original closed-loop system is exponentially stable with given arbitrary decay rate. Then, we construct a collocated boundary observer which only needs measurements on the controlled boundary, and show the convergence of observer estimates. Both results are combined to obtain a collocated output feedback law.
Keywords :
asymptotic stability; closed loop systems; control system synthesis; distributed control; heat exchangers; observers; partial differential equations; state feedback; arbitrary decay rate; backstepping approach; boundary stabilization; closed-loop system; collocated boundary observer; collocated output feedback law; distributed parameter systems; exponential stability; first-order symmetric hyperbolic linear partial differential equations; frequency domain behavior; heat exchanger network system; spatially varying coefficients; state feedback design; symmetric linear hyperbolic system; time domain behavior; Backstepping; Boundary conditions; Equations; Estimation error; Kernel; Mathematical model; Observers; Backstepping method; Boundary control; Hyperbolic equations; Stability;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
