Adaptive inverse control of piezoelectric actuators based on segment similarity

Xiangdong Liu; Mengqi Huang; Rui Xiong; Jinjun Shan; Xuefei Mao

doi:10.1109/TIE.2018.2868011

Adaptive inverse control of piezoelectric actuators based on segment similarity

Xiangdong Liu, Mengqi Huang, Rui Xiong, Jinjun Shan, Xuefei Mao^*

^*Corresponding author for this work

School of Automation

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The hysteresis behavior of piezoelectric actuators is primarily responsible for the decrease of the precision and performance of the nanopositioning systems. To compensate for hysteresis, an inverse model is proposed in this paper as a segment similarity feedforward compensator. Furthermore, the inverse model is improved by using an adaptive method to eliminate the accumulated error of the similarity compensator. The proposed adaptive similarity compensator has the advantages of simple structure, less storage space, and fast calculation speed, and it is available for most engineering situations. Experiments are carried out with the proposed similarity compensator and adaptive similarity compensator. The experimental results show that the compensator can achieve good results and better performance, especially for high-frequency excitations.

Original language	English
Article number	8456840
Pages (from-to)	5403-5411
Number of pages	9
Journal	IEEE Transactions on Industrial Electronics
Volume	66
Issue number	7
DOIs	https://doi.org/10.1109/TIE.2018.2868011
Publication status	Published - Jul 2019

Keywords

Hysteresis compensation
piezoelectric actuator (PEA)
segment similarity

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10.1109/TIE.2018.2868011

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title = "Adaptive inverse control of piezoelectric actuators based on segment similarity",

abstract = "The hysteresis behavior of piezoelectric actuators is primarily responsible for the decrease of the precision and performance of the nanopositioning systems. To compensate for hysteresis, an inverse model is proposed in this paper as a segment similarity feedforward compensator. Furthermore, the inverse model is improved by using an adaptive method to eliminate the accumulated error of the similarity compensator. The proposed adaptive similarity compensator has the advantages of simple structure, less storage space, and fast calculation speed, and it is available for most engineering situations. Experiments are carried out with the proposed similarity compensator and adaptive similarity compensator. The experimental results show that the compensator can achieve good results and better performance, especially for high-frequency excitations.",

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AU - Liu, Xiangdong

AU - Huang, Mengqi

AU - Xiong, Rui

AU - Shan, Jinjun

AU - Mao, Xuefei

PY - 2019/7

Y1 - 2019/7

N2 - The hysteresis behavior of piezoelectric actuators is primarily responsible for the decrease of the precision and performance of the nanopositioning systems. To compensate for hysteresis, an inverse model is proposed in this paper as a segment similarity feedforward compensator. Furthermore, the inverse model is improved by using an adaptive method to eliminate the accumulated error of the similarity compensator. The proposed adaptive similarity compensator has the advantages of simple structure, less storage space, and fast calculation speed, and it is available for most engineering situations. Experiments are carried out with the proposed similarity compensator and adaptive similarity compensator. The experimental results show that the compensator can achieve good results and better performance, especially for high-frequency excitations.

AB - The hysteresis behavior of piezoelectric actuators is primarily responsible for the decrease of the precision and performance of the nanopositioning systems. To compensate for hysteresis, an inverse model is proposed in this paper as a segment similarity feedforward compensator. Furthermore, the inverse model is improved by using an adaptive method to eliminate the accumulated error of the similarity compensator. The proposed adaptive similarity compensator has the advantages of simple structure, less storage space, and fast calculation speed, and it is available for most engineering situations. Experiments are carried out with the proposed similarity compensator and adaptive similarity compensator. The experimental results show that the compensator can achieve good results and better performance, especially for high-frequency excitations.

KW - Hysteresis compensation

KW - piezoelectric actuator (PEA)

KW - segment similarity

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Adaptive inverse control of piezoelectric actuators based on segment similarity

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