Hysteresis compensation control of a dielectric elastomer vibration isolator

This paper describes the design and fabrication of a dielectric elastomer actuator vibration isolator and accompanying hysteresis compensation controller. The results of experiments to elucidate the hysteresis properties and the quality of the vibration isolation are also presented. The model used t...

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Published in	Journal of low frequency noise, vibration, and active control Vol. 40; no. 1; pp. 497 - 508
Main Authors	Meng, Lili, Bao, Wenjie, Li, Fucai, Li, Hongguang
Format	Journal Article
Language	English
Published	London, England SAGE Publications 01.03.2021 Sage Publications Ltd SAGE Publishing
Subjects	Actuators Algorithms Autoregressive models Back propagation networks Compensation Controllers Elastomers Frequencies Hysteresis Least squares method Neural networks Proportional integral derivative Vibration isolators vibration isolator Dielectric elastomer hysteresis compensation control
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Abstract	This paper describes the design and fabrication of a dielectric elastomer actuator vibration isolator and accompanying hysteresis compensation controller. The results of experiments to elucidate the hysteresis properties and the quality of the vibration isolation are also presented. The model used to characterize the hysteresis properties of the dielectric elastomer actuator is based on the controlled auto-regressive model and employs the recursive least squares method. A closed-loop proportional–integral–derivative controller was developed to compensate the hysteresis and was tuned via the back propagation neural network algorithm. The results demonstrate that the controller can compensate the hysteresis of the dielectric elastomer actuator, and the dielectric elastomer actuator can be used to isolate incoming vibration from the base. When tested using a narrow band vibration in a 5 Hz band, the isolation of the dielectric elastomer actuator vibration isolator was 45.60% across the frequency band.
AbstractList	This paper describes the design and fabrication of a dielectric elastomer actuator vibration isolator and accompanying hysteresis compensation controller. The results of experiments to elucidate the hysteresis properties and the quality of the vibration isolation are also presented. The model used to characterize the hysteresis properties of the dielectric elastomer actuator is based on the controlled auto-regressive model and employs the recursive least squares method. A closed-loop proportional–integral–derivative controller was developed to compensate the hysteresis and was tuned via the back propagation neural network algorithm. The results demonstrate that the controller can compensate the hysteresis of the dielectric elastomer actuator, and the dielectric elastomer actuator can be used to isolate incoming vibration from the base. When tested using a narrow band vibration in a 5 Hz band, the isolation of the dielectric elastomer actuator vibration isolator was 45.60% across the frequency band.
Author	Li, Fucai Meng, Lili Bao, Wenjie Li, Hongguang
Author_xml	– sequence: 1 givenname: Lili orcidid: 0000-0003-1080-0207 surname: Meng fullname: Meng, Lili organization: The State key Laboratory of Mechanical System and Vibration – sequence: 2 givenname: Wenjie surname: Bao fullname: Bao, Wenjie organization: The State key Laboratory of Mechanical System and Vibration – sequence: 3 givenname: Fucai surname: Li fullname: Li, Fucai email: fcli@sjtu.edu.cn organization: The State key Laboratory of Mechanical System and Vibration – sequence: 4 givenname: Hongguang surname: Li fullname: Li, Hongguang email: fcli@sjtu.edu.cn organization: The State key Laboratory of Mechanical System and Vibration
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SubjectTerms	Actuators Algorithms Autoregressive models Back propagation networks Compensation Controllers Elastomers Frequencies Hysteresis Least squares method Neural networks Proportional integral derivative Vibration isolators
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Title	Hysteresis compensation control of a dielectric elastomer vibration isolator
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