A technique for driving a flexible system with on-off actuators is presented and experimentally verified. The control system is designed to move the rigid body of a structure a desired distance without causing residual vibration in the flexible modes. The on-off control actions are described by closed-form functions of the system’s natural frequency, damping ratio, actuator force-to-mass ratio, and the desired move distance. Given the closed-form equations, the control sequence can be determined in real time without the need for numerical optimization. Performance measures of the proposed controller such as speed of response, actuator effort, peak transient deflection, and robustness to modeling errors are examined. Experiments performed on a flexible satellite testbed verify the utility of the proposed method.
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June 2006
Technical Papers
Experimental Verification of Real-Time Control for Flexible Systems With On-Off Actuators
William Singhose,
William Singhose
Woodruff School of Mechanical Engineering,
Georgia Institute of Technology
, Atlanta, GA
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Erika Biediger,
Erika Biediger
Woodruff School of Mechanical Engineering,
Georgia Institute of Technology
, Atlanta, GA
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Hideto Okada,
Hideto Okada
NEC Toshiba Space Systems, Ltd.
, Yokohama, Japan
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Saburo Matunaga
Saburo Matunaga
Department of Mechanical and Aerospace Engineering,
Tokyo Institute of Technology
, Tokyo, Japan
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William Singhose
Woodruff School of Mechanical Engineering,
Georgia Institute of Technology
, Atlanta, GA
Erika Biediger
Woodruff School of Mechanical Engineering,
Georgia Institute of Technology
, Atlanta, GA
Hideto Okada
NEC Toshiba Space Systems, Ltd.
, Yokohama, Japan
Saburo Matunaga
Department of Mechanical and Aerospace Engineering,
Tokyo Institute of Technology
, Tokyo, JapanJ. Dyn. Sys., Meas., Control. Jun 2006, 128(2): 287-296 (10 pages)
Published Online: July 19, 2005
Article history
Received:
November 25, 2004
Revised:
July 19, 2005
Citation
Singhose, W., Biediger, E., Okada, H., and Matunaga, S. (July 19, 2005). "Experimental Verification of Real-Time Control for Flexible Systems With On-Off Actuators." ASME. J. Dyn. Sys., Meas., Control. June 2006; 128(2): 287–296. https://doi.org/10.1115/1.2192837
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