EFFECTIVE ACTIVE DAMPING DESIGN FOR SUPPRESSION OF VIBRATION IN FLEXIBLE SYSTEMS VIA DISLOCATED SENSOR ACTUATOR POSITIONING

Title:	EFFECTIVE ACTIVE DAMPING DESIGN FOR SUPPRESSION OF VIBRATION IN FLEXIBLE SYSTEMS VIA DISLOCATED SENSOR ACTUATOR POSITIONING
Authors:	CHEN, ST FAN, YH LEE, AC 交大名義發表機械工程學系 National Chiao Tung University Department of Mechanical Engineering
Keywords:	VIBRATION SUPPRESSION;FLEXIBLE STRUCTURE;OPTIMAL CONTROL;DISLOCATED SENSOR ACTUATOR POSITIONING
Issue Date:	1-Jun-1994
Abstract:	In this paper we present a new controller design method that effectively suppresses vibration in flexible systems. The method allows integrated determination of sensor/actuator locations and feedback gain via minimization of an energy criterion which represents the integrated total energy stored in the system. This energy criterion is characterized by an effective representation of vibration, determined via an efficient solution of the Lyapunov equation and minimized with a quasi-Newton or recursive quadratic programming algorithm. The application of this method to a simple flexible structure confirms the direct relationship between our optimization criterion and effectiveness of vibration suppression.
URI:	http://hdl.handle.net/11536/2466
ISSN:	1340-8062
Journal:	JSME INTERNATIONAL JOURNAL SERIES C-DYNAMICS CONTROL ROBOTICS DESIGN AND MANUFACTURING
Volume:	37
Issue:	2
Begin Page:	252
End Page:	259
Appears in Collections:	Articles