Title :
Generalized Prandtl-Ishlinskii model for rate-dependent hysteresis: Modeling and its inverse compensation for Giant Magnetostrictive Actuator
Author :
Zhen, Zhang ; Qingwei, Chen ; Jianqin, Mao
Author_Institution :
Sch. of Autom. Sci. & Electr. Eng., Beijing Univ. of Aeronaut. & Astronaut., Beijing, China
Abstract :
A generalized Prandtl-Ishlinskii model is proposed for characterizing rate-dependent hysteresis of Giant Magnetostrictive Actuator (GMA). A generalized play operator with rate-dependent envelope function is integrated into generalized Prandtl-Ishlinskii model to describe the rate-dependent effects of GMA. Good agreements are shown between simulation results and experimental data including major and minor hysteresis loops. Furthermore, an inverse of proposed model is given and implemented as a feedforward compensation controller. The validity of the compensation is examined by experiments of tracking control for GMA.
Keywords :
compensation; control nonlinearities; feedforward; giant magnetoresistance; magnetic actuators; magnetic hysteresis; magnetoresistive devices; micropositioning; tracking; vibration control; GMA; GRDPI model; active vibration control; feedforward compensation controller; generalized Prandtl-Ishlinskii model; generalized play operator; giant magnetostrictive actuator; hysteresis nonlinearity; inverse compensation; major hysteresis loops; micropositioning; minor hysteresis loops; rate-dependent effects; rate-dependent envelope function; rate-dependent hysteresis; tracking control; Actuators; Educational institutions; Feedforward neural networks; Hysteresis; Magnetic hysteresis; Magnetostriction; Mathematical model; Giant Magnetostrictive Actuator; Hysteresis; Modeling; Rate-Dependent; Tracking Control;
Conference_Titel :
Control Conference (CCC), 2012 31st Chinese
Conference_Location :
Hefei
Print_ISBN :
978-1-4673-2581-3
