Title :
Hysteresis compensation using LPV gain-scheduling
Author :
Mehendale, Charudatta S. ; Grigoriadis, Karolos M.
Author_Institution :
Dept. of Mech. Eng., Houston Univ., TX, USA
fDate :
June 30 2004-July 2 2004
Abstract :
This paper proposes a linear parameter varying (LPV) approach to control nonlinear systems with hysteresis. An equivalent representation of the hysteretic system as a quasi - LPV system is provided. The design approach is demonstrated using a two-mass-spring system with a hysteretic spring force. The LPV controller is scheduled based on real-time measurements of the spring stiffness. The results are compared to a robust H/sub /spl infin// control design that considers the hysteretic stiffness variability as system uncertainty. It is shown that the LPV design provides superior performance and avoids the conservatism of the robust H/sub /spl infin// design. The results demonstrate that with an appropriate formulation, LPV gain-scheduling is an effective alternative to inverse compensation.
Keywords :
H/sup /spl infin// control; compensation; control system synthesis; hysteresis; linear systems; nonlinear control systems; robust control; springs (mechanical); uncertain systems; control system synthesis; gain scheduling; hysteresis compensation; hysteretic spring force; hysteretic stiffness; hysteretic system; inverse compensation; mass spring system; nonlinear control systems; quasilinear parameter varying method; real time measurements; robust H/sub /spl infin// control design; spring stiffness; system uncertainty;
Conference_Titel :
American Control Conference, 2004. Proceedings of the 2004
Conference_Location :
Boston, MA, USA
Print_ISBN :
0-7803-8335-4
