Title :
Simplified Rapid Switching Gain Scheduling for a Class of LPV Systems
Author :
Dehghani, Abbas ; Rotkowitz, M.C. ; Anderson, B.D.O. ; Cha, S.H.
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Melbourne, Parkville, VIC, Australia
Abstract :
A limitation of the original gain-scheduling approaches is that the closed-loop stability can only be assured when the underlying parameters vary sufficiently slowly. A remedy exists but requires for its implementation the possible solution of asymptotic Riccati equations (ARE) for an infinite number of different parameter values, and the on-line solution of a Riccati differential equation (RDE) with time-varying coefficient matrices. Our method avoids solving the RDE online and instead uses an explicit transient formula that looks up the predetermined solutions of the associated AREs at a finite set of given system operating points. Furthermore, only a finite number of AREs are solved to determine a finite set of controller gains.
Keywords :
Riccati equations; closed loop systems; matrix algebra; stability; time-varying systems; ARE; LPV systems; RDE; Riccati differential equation; asymptotic Riccati equations; closed-loop stability; different parameter values; simplified rapid switching gain scheduling; time-varying coefficient matrices; underlying parameters; Observers; Stability analysis; State feedback; Steady-state; Switches; Transient analysis; Asymptotic Riccati equations (ARE); Riccati differential equation (RDE;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2012.2190210
