In Active Vibration Control of smart structures, the actuator and sensor placement is a key point of the control system design. The objective of this paper is to propose an H2 norm approach for the actuator and sensor placement, which aims not only to maximize the norms of the controlled modes but also to reduce spillover problems by taking into account the residual modes and minimizing their H2 norms. It discusses optimal actuator and sensor configuration on a finite element model of a square carbon fiber plate fixed on three sides with piezoelectric patch actuators and acceleration sensors. Finally, downstream the actuator and sensor positioning, the well known IMSC control logic have been applied in order to test the optimal positioning. © 2013 IEEE.

A sensor and actuator placement technique for active vibration control using H2 norm

RIPAMONTI, FRANCESCO;RESTA, FERRUCCIO;BRAGHIN, FRANCESCO
2013-01-01

Abstract

In Active Vibration Control of smart structures, the actuator and sensor placement is a key point of the control system design. The objective of this paper is to propose an H2 norm approach for the actuator and sensor placement, which aims not only to maximize the norms of the controlled modes but also to reduce spillover problems by taking into account the residual modes and minimizing their H2 norms. It discusses optimal actuator and sensor configuration on a finite element model of a square carbon fiber plate fixed on three sides with piezoelectric patch actuators and acceleration sensors. Finally, downstream the actuator and sensor positioning, the well known IMSC control logic have been applied in order to test the optimal positioning. © 2013 IEEE.
2013
2013 IEEE International Conference on Mechatronics, ICM 2013
978-146731388-9
Acceleration sensors, Active vibration controls, Finite element models, Optimal positioning, Piezoelectric patch actuators, Sensor and actuators, Sensor configurations, Sensor positioning
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/758912
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