TitleSuppression of vibration with optimal actuators and sensors placement
Journal titleArchives of Control Sciences
Divisions of PASNauki Techniczne
PublisherCommittee of Automatic Control and Robotics PAS
ReferencesARBEL A. (1981), Controllability measures and actuator placement in oscillatory systems, Int. J. of Control, 33, 565. ; Barboni R. (2000), Optimal placement of PZT actuators for the control of beam dynamics, Smart Mater Struct, 9, 110. ; BENSOUSSAN A. (1972), Lecture Notes on Mathematics Optimization of sensors location in a distributed filtering problem, 62. ; BRUANT I. (2005), Optimal location of actuators and sensors in active vibration control, J. of Intel. Material Systems and Structures, 16, 197. ; BRYSON A. (1975), Applied optimal control, optimization, estimation, and control. ; CHANG M. (1980), Optimal controller placement in modal control of complex systems, J. of Mathematical Analysis and Applications, 75, 340. ; HAC A. (1982), Application of Kalman filter technique to measurement of stochastic vibration of distributed parameter systems, Institute of Machine Design Fundamentals Research, 13, 113. ; HAC A. (1993), Sensor and actuator location in motion control of flexible structures, J. of Sound and Vibration, 167, 2. ; HUGHES P. (1980), Control-lability and observability of linear matrix-second-order systems, J. of Applied Mechanics, 47, 415. ; HUGHES P. (1980), Controllability and observability for flexible spacecraft, J. of Guidance and Control, 3, 452. ; KONDOF1 S. (1990), The positioning of sensors and actuators in the vibration control of flexible systems, JSME Int. J., Series II, 133, 145. ; R. LINDENBERG, JR. (1984), On the number and placement of actuators for independent modal space control, J. of Guidance and Cantrol, 7, 215. ; LIU W. (2004), Optimal sensor/actuator location for vibration control of structures, null, 13. ; MARTIN J. (1978), Optimal allocation of actuators for distributed parameter systems, J. of Dynamic Systems, Measurement, and Control, 100, 227. ; NASHIF A. (1985), Vibration Damping. ; PENG F. (2005), Actuator placement optimization and adaptive vibration control of plate smart structures, J. of Intelligent Material Systems and Structures, 16, 263. ; PULTHASTHAN S. (2008), The optimal placement of actuator and sensor structures for active noise control of sound-structure interaction systems, Smart Materials and Struct, 1. ; SCHULZ G. (1983), Dislocated actuator/sensor positioning and feedback design for flexible structures, J. of Guidance and Control, 6, 361. ; STAREK L. (2004), Suppression of vibration of a clamped beam with embedded self-sensing piezoceramics actuator, Elektronika, 8-9, 22. ; YAN T. (2006), General optimization of sizes or placement for various sensors/actuators in structure testing and control, Smart Materials and Structures, 15, 724. ; ZHANG H. (2006), Optimal placement and active vibration control for piezoelectric smart flexible cantilever plate, J. of Sound and Vibration, 301, 521. ; JUANG J.-N. (1979), Formulations and applications of large structure actuator and sensor placements, null, 247. ; KALMAN R. (1962), Controllability of linear dynamical systems, Contributions to Differential Equations, 1, 2, 189. ; MIDDLETON R. (1990), Digital control and estimation: a unified approach. ; GAWRONSKI W. (1990), Control and Dynamic Systems: Advances in Theory and Applications, 36, 143. ; GLOVER K. (1984), All optimal Hankel-norm approximations of linear multivariable systems and their L'-errors bounds, Int. J. of Control, 39, 1115. ; INMAN D. (2006), Vibration and control. ; GOH C. (1985), On the stability problem caused by finite actuator dynamics in the collocated control of large space structures, Int. J. Control, 41, 3, 787.