Compensation of hysteresis in piezoelectric actuator with iterative learning control 被引量：2

Compensation of hysteresis in piezoelectric actuator with iterative learning control

下载PDF

导出

摘要 This paper presents the application of iterative learning control (ILC) to compensate hysteresis in a piezoelectric actuator. The proposed controller is a hybrid of proportional-integral-differential (PID) control, whose main function is for trajectory tracking, and a chatter-based ILC, whose main function is for hysteresis compensation. Stability analysis of the proposed ILC is presented, with the PID included in the dynamic of the piezoelectric actuator. The performance of the proposed controller is analysed through simulation and verified with experiment with a piezoelectric actuator. This paper presents the application of iterative learning control (ILC) to compensate hysteresis in a piezoelectric actuator. The proposed controller is a hybrid of proportional-integral-differential (PID) control, whose main function is for trajectory tracking, and a chatter-based ILC, whose main function is for hysteresis compensation. Stability analysis of the proposed ILC is presented, with the PID included in the dynamic of the piezoelectric actuator. The performance of the proposed controller is analysed through simulation and verified with experiment with a piezoelectric actuator.

作者 Kok Kiong TAN Andi Sudjana PUTRA Tong Heng LEE

机构地区 Department of Electrical and Computer Engineering Graduate School for Integrative Sciences and Engineering

出处《控制理论与应用（英文版）》 EI 2010年第2期176-180,共5页

关键词 Iterative learning control HYSTERESIS Piezoelectric actuator Stability analysis Iterative learning control Hysteresis Piezoelectric actuator Stability analysis

分类号 TP13 [自动化与计算机技术—控制理论与控制工程]

引文网络
相关文献

参考文献12

1H. R. Pota,T. E. Alberts.Multivariable transfer functions for a slewing piezoelectric laminate beam. IEEE International Conference on Systems Engineering . 1992 被引量：1
2K. Y. Tsai,J. Y. Yen.Servo system design of a high-resolution piezo-driven fine stage for step-and-repeat microlithography systems. The 25th Annual Conference of the IEEE Industrial Electronics Society . 1999 被引量：1
3H. Sira-Ramirez.Nonlinear pulse width modulation controller design. Variable Structure Control for Robotics and Aerospace Applications . 1993 被引量：1
4A. Putra,S. Huang,K. K. Tan, et al.Design, modeling, and control of piezoelectric actuators for intracytoplasmic sperm injection. IEEE Transactions on Control Systems Technology . 2007 被引量：1
5Jung SB,Kim SW.Improvement of scanning accuracy of PZT piezoelectric actrators by feed-forward model -reference control. Precision Engineering . 1994 被引量：1
6Newcomb C V,Flinn I.Improving the Linearity of Piezoelectric Ceramic Actuators. Electronics Letters . 1982 被引量：1
7Ge P,Jouaneh M.Tracking control of a piezoceramic actuator. IEEE Transactions on Control Systems Technology . 1996 被引量：1
8Canudas de Wit C,Olsson H,Astrom KJ,et al.A new model for control of systems with friction. IEEE Transactions on Automatic Control . 1995 被引量：1
9Palazzolo A B,Jagannathan S,Kascak A F,et al.Hybrid active vibration control of rotor bearing systems using piezoelectric actuators. Journal of Vibration and Acoustics . 1993 被引量：1
10J. F. Cuttino,A. C. Miller,D. E. Schinstock.Optimization of a Fast Tool Servo for Single Point Diamond Turning Machines. IEEE ASME Trans. on Mechatronics . 1999 被引量：1

同被引文献14

1刘向东,修春波,李黎,刘承.迟滞非线性系统的神经网络建模[J].压电与声光,2007,29(1):106-108. 被引量：15
2王小平,曹立明.遗传算法理论、应用与软件实现[M].西安:西安交通大学出版社,2004:1-10. 被引量：3
3Tian M. Adaptive Control of Systems with Non Smooth Nonlinearities[D]. Charlattesville, Virginia : University of Virginia, 1997 : 113-123. 被引量：1
4Fan Bin. Nonlinearities Modeling of Smart Materials and Structure[D]. Houston:University of Houston, 2010:21-22. 被引量：1
5Fu J. On the Adaptive Controls of Non Linear Sys- tems with Different Hysteresis Model Representa- tion[D]. Montreal: Coneordia University, 2009 : 104- 124. 被引量：1
6Ge Ping, Jouaneht M. Generalized Preisaeh Model for Hysteresis Non Linearity of Piezoceramic Actu- ators[J]. Precision Engineering, 1997, 20 (2): 99- 110. 被引量：1
7Reynolds J J. An Investigation of Model Reference Adaptive Control of Unknown Dynamic Hysteretic Systems Using Slow Adaptation[D]. East Lansing, Michigan : Michigan State University, 2007 : 1-5. 被引量：1
8郑军红,叶修梓,陈志杨.基于神经网络和遗传算法的智能夹具规划[J].中国机械工程,2008,19(19):2376-2381. 被引量：12
9张泾周,杨伟静,张安祥.模糊自适应PID控制的研究及应用仿真[J].计算机仿真,2009,26(9):132-135. 被引量：120
10刘慧芳,贾振元,王福吉.基于神经网络的超磁致伸缩传感执行器磁滞模型[J].中国机械工程,2011,22(5):571-575. 被引量：6

引证文献2

1纪华伟,刘毛娜,胡小平.基于混合遗传算法的磁控形状记忆合金驱动器磁滞模型优化[J].中国机械工程,2015,26(4):508-512. 被引量：2
2齐思宁,李强.多自由度压电纳米定位平台控制技术研究现状[J].计测技术,2023,43(6):8-19.

二级引证文献2

1马德,李少聪,张军峰.基于混合遗传神经网络的运动员专项成绩预测系统设计[J].现代电子技术,2018,41(8):183-186. 被引量：4
2李冰,张永德,袁立鹏,朱光强,代雪松,苏文海.液压四足机器人足端的力预测控制与运动平稳性[J].中国机械工程,2021,32(5):523-532. 被引量：10

1Li Chuntao,Tan Yonghong.Adaptive control of system with hysteresis using neural networks[J].Journal of Systems Engineering and Electronics,2006,17(1):163-167. 被引量：3
2王耿,官春林,周虹,张小军,饶长辉.Hysteresis compensation of piezoelectric actuator for open-loop control[J].Chinese Optics Letters,2013,11(14):63-66.
3汝长海,孙立宁,荣伟彬.A control model for hysteresis based on microscopic polarization mechanisms in piezoelectric actuator[J].Journal of Harbin Institute of Technology(New Series),2008,15(3):302-306.
4CAS academician Chunsheng Zhao.Preface for Special Issue on Piezoelectric Actuator[J].光学精密工程,2008,16(12).
5Ping Liu,Zhen-Yan Wang,Zhen Zhang,Jian-Qin Mao,Ke-Min Zhou.Modeling and H_∞ Robust Control of a Smart Structure with Rate-dependent Hysteresis Nonlinearity[J].International Journal of Automation and computing,2014,11(1):51-58.
6其它自动控制系统[J].电子科技文摘,2002,0(9):144-145.
7王广林,刘胜伟,邵东向,李云峰.Research of the algorithm of the closed-loop control system to control the piezoelectric actuator[J].Journal of Harbin Institute of Technology(New Series),2005,12(1):31-33.
8GAN Minggang,QIAO Zhi,LI Yanlong.Sliding Mode Control with Perturbation Estimation and Hysteresis Compensator Based on Bouc-Wen Model in Tackling Fast-Varying Sinusoidal Position Control of a Piezoelectric Actuator[J].Journal of Systems Science & Complexity,2016,29(2):367-381. 被引量：5
9赵彤,谭永红.迟滞非线性动态系统神经网络自适应控制[J].计算机仿真,2004,21(8):104-107. 被引量：5
10张金祥,张佳莺,赵志刚.Fuzzy control in Au automatic electroplating[J].Journal of Harbin Institute of Technology(New Series),2000,7(4):79-84.

控制理论与应用（英文版）

2010年第2期

浏览历史

内容加载中请稍等...

Compensation of hysteresis in piezoelectric actuator with iterative learning control 被引量：2

参考文献12

同被引文献14

引证文献2

二级引证文献2

相关作者

相关机构

相关主题

浏览历史