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Prescribed Performance Sliding-mode Control for Piezoelectric Micro-Positioning Stage

In order to further improve the positioning accuracy of piezoelectric micro-positioning stages, a discrete-time sliding mode controller with a prescribed performance function is designed based on the Hammerstein model. First, this paper proposes a new prescribed performance function, which can set t...

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Main Authors:	Zhang, Shi-Xin, Wang, Yong-Chang, Shi, Zhao-Yuan, Wen, Sheng-Jun
Format:	Conference Proceeding
Language:	English
Subjects:	Mechatronics Piezoelectric-actuated system prescribed performance control Simulation Sliding mode control Steady-state
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creator	Zhang, Shi-Xin Wang, Yong-Chang Shi, Zhao-Yuan Wen, Sheng-Jun
description	In order to further improve the positioning accuracy of piezoelectric micro-positioning stages, a discrete-time sliding mode controller with a prescribed performance function is designed based on the Hammerstein model. First, this paper proposes a new prescribed performance function, which can set the time at which the system reaches the steady state arbitrarily. Then, the error with constraint range is transformed into an unconstrained form by using the error transformation method, and a discrete sliding mode controller is designed. Finally, the control simulation is carried out using sine wave and triangle wave, and compared with the conventional discrete sliding mode controller. The simulation results show that the error of the piezoelectric micro-positioning stages can converge in the prescribed region, and the error of the proposed method is less than that of the discrete sliding mode control.
doi_str_mv	10.1109/ICAMechS57222.2022.10003226
format	conference_proceeding
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source	IEEE Xplore All Conference Series
subjects	Mechatronics Piezoelectric-actuated system prescribed performance control Simulation Sliding mode control Steady-state
title	Prescribed Performance Sliding-mode Control for Piezoelectric Micro-Positioning Stage
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