Add to ORKGThe active control of acoustic pressure in a 2-D cavity with a flexible boundary (a beam) is considered. Specifically, this control is implemented via piezoceramic patches on the beam which produces pure bending moments. The incorporation of the feedback control in this manner leads to a system with an unbounded input term. Approximation methods in this manner leads to a system with an unbounded input term. Approximation methods in the context of linear quadratic regulator (LQR) state space control formulation are discussed and numerical results demonstrating the effectiveness of this approach in computing feedback controls for noise reduction are presented
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
This paper investigates through numerical simulations the limits of performance for a class of feedf...
ABSTRACT: A damped vibroacoustic absorber is fabricated using piezoceramic material as the electrome...
-: " " 5*i "nIa/o The modeling and active control of acoustic pressure in a 2-D cavit...
A feedback control computational methodology for reducing acoustic sound pressure levels in a 2-D ca...
An overview describing the use of piezoceramic patches in reducing noise in a structural acoustics s...
A problem of continued interest concerns the control of vibrations in a flexible structure and the r...
This paper compares the limitations of "optimal" feedforward and feedback strategies for active stru...
A model-based Linear Quadratic Regulator (LQR) method for controlling vibrations in cylindrical shel...
AbstractWe consider a controlled and observed partial differential equation (PDE) which describes a ...
We consider a model arising in structural acoustic problems which is comprised of an acoustic chambe...
Optimum placement of multiple traditional piezoceramic actuators is determined for active structural...
Optimum placement of multiple traditional piezoceramic actuators is determined for active structural...
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
This paper investigates through numerical simulations the limits of performance for a class of feedf...
ABSTRACT: A damped vibroacoustic absorber is fabricated using piezoceramic material as the electrome...
-: " " 5*i "nIa/o The modeling and active control of acoustic pressure in a 2-D cavit...
A feedback control computational methodology for reducing acoustic sound pressure levels in a 2-D ca...
An overview describing the use of piezoceramic patches in reducing noise in a structural acoustics s...
A problem of continued interest concerns the control of vibrations in a flexible structure and the r...
This paper compares the limitations of "optimal" feedforward and feedback strategies for active stru...
A model-based Linear Quadratic Regulator (LQR) method for controlling vibrations in cylindrical shel...
AbstractWe consider a controlled and observed partial differential equation (PDE) which describes a ...
We consider a model arising in structural acoustic problems which is comprised of an acoustic chambe...
Optimum placement of multiple traditional piezoceramic actuators is determined for active structural...
Optimum placement of multiple traditional piezoceramic actuators is determined for active structural...
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
A coupled finite element (FE) and boundary element (BE) approach is presented to model full coupled ...
This paper investigates through numerical simulations the limits of performance for a class of feedf...
ABSTRACT: A damped vibroacoustic absorber is fabricated using piezoceramic material as the electrome...