제어로봇시스템학회:학술대회논문집
- 1996.10a
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- Pages.397-400
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- 1996
Robust motion control of a flexible micro-actuator using $H_{\infty}$ control method
- Okugawa, Masayuki (Dept. of Mech. Eng., Gifu National College of Technology) ;
- Sasaki, Minoru (Dept. of Mech. Eng., Faculty of Eng., Gifu University) ;
- Fujisawa, Fumio (Dept. of Mech. Eng., Faculty of Eng., Gifu University)
- Published : 1996.10.01
Abstract
In this paper, robust motion control of a flexible micro-actuator is presented. The actuator is made of a bimorph piezoelectric high-polymer material (PVDF). No mathematical model system can exactly model a physical system such a flexible micro-actuator. For this reason we must be aware of how modeling errors might adversely affect the performance of a control system for such a model. The H method addresses a wide range of the control problems, combining the frequency and time domain approaches. The design is an optimal one in the sense of minimization of the maximum of the closed-loop transfer function. It includes colored measurement and process noise. It also addresses the issues of robustness due to model uncertainties, and is applicable to the, flexible micro-actuator control problem. Therefore, we adopt the H control problem to the robust motion control of the flexible micro-actuator. Theoretical and experimental results demonstrate the satisfactory performance and the effectiveness of the designed controller. the effectiveness of the designed controller.
Keywords
- robust motion control;
- piezoelectric high-polymer material;
- flexible micro-actuator;
- robust servo system