Title :
Nonlinearity estimation and compensation by linear observers: theory and applications
Author :
Müller, Peter C.
Author_Institution :
Safety Control Eng., Wuppertal Univ., Germany
Abstract :
Systems are often influenced by troublesome nonlinear effects such as Coulomb friction, hysteresis or backlash. In this contribution an indirect measuring technique of the actual values of these nonlinearities is presented. Based on a fictitious model of the time behavior of the nonlinearities a linear state observer of an extended dynamical system is designed resulting in estimates of the nonlinear effects. In case of control design the disturbance rejection control method is applied to counteract the nonlinearities by the estimated signals. Some sufficient criteria for the asymtotic stability of the estimation error are given. Additionally some applications are shown in the fields of highly accurate position control of robots and of fault detection of cracks in turbo rotors
Keywords :
asymptotic stability; crack detection; friction; hysteresis; motion compensation; nonlinear control systems; nonlinear dynamical systems; position control; robot dynamics; rotors; telerobotics; Coulomb friction; asymtotic stability; backlash; crack detection; disturbance rejection; error estimation; extended dynamical system; fault detection; highly accurate position control; hysteresis; linear observers; linear state; nonlinearity compensation; nonlinearity estimation; robots; time behavior; turbo rotors; Control design; Control nonlinearities; Estimation error; Friction; Hysteresis; Observers; Position control; Robots; Stability criteria; State estimation;
Conference_Titel :
Control of Oscillations and Chaos, 2000. Proceedings. 2000 2nd International Conference
Conference_Location :
St. Petersburg
Print_ISBN :
0-7803-6434-1
DOI :
10.1109/COC.2000.873498
