Adaptive inverse control for piezoelectric actuator based on hysteresis model

Author

Ru, Chang-Hai ; Sun, Li-Ning ; Kong, Min-Xiu

Author_Institution

Robotics Inst., Harbin Inst. of Technol., China

Volume

5

fYear

2005

fDate

18-21 Aug. 2005

Firstpage

3189

Abstract

A major deficiency of piezoelectric actuators is that their open-loop control accuracy is seriously limited by hysteresis. In this paper, a novel mathematical model is proposed to describe hysteresis precisely. Based on the hysteresis model, an adaptive inverse control approach is presented for reducing hysteresis. The weights of the main hysteresis loop are identified by using LMS algorithm. The realization of an inverse feedforward controller for the linearization of a piezoelectric actuator is formulated. Experiments were performed on a micro-positioning system driven by piezoelectric actuators. The experimental results demonstrate that the positioning precision is noticeably improved in open-loop operation compared to the conventional open-loop control without any compensation.

Keywords

adaptive control; feedforward; hysteresis; least mean squares methods; machine control; micropositioning; piezoelectric actuators; adaptive inverse control; hysteresis loop model; hysteresis reduction; inverse feedforward controller; least mean square algorithm; mathematical model; micropositioning system; open loop control operation; piezoelectric actuator linearization; Adaptive control; Hysteresis; Inverse problems; Least squares approximation; Mathematical model; Open loop systems; Piezoelectric actuators; Programmable control; Sun; Voltage; Hysteresis; LMS; adaptive inverse; piezoelectric actuator;

fLanguage

English

Publisher

ieee

Conference_Titel

Machine Learning and Cybernetics, 2005. Proceedings of 2005 International Conference on

Conference_Location

Guangzhou, China

Print_ISBN

0-7803-9091-1

Type

conf

DOI

10.1109/ICMLC.2005.1527492

Filename

1527492