Experimental tests on smart panels for the reduction of sound radiation
Experimental tests on smart panels for the reduction of sound radiation
This paper presents a comparative experimental study carried out on four types of smart panels for the reduction of sound radiation. The four panels are equipped with decentralized velocity feedback control units that are designed to generate active damping. In this way the frequency averaged response and sound radiation produced by stochastic disturbances can be effectively reduced at low audio frequencies. The first smart panel is composed of a 4x4 array of square piezoelectric patch actuators with accelerometer sensors at their centres. The second smart panel is composed of sixteen triangularly shaped piezoelectric patch actuators with base edges evenly distributed along the perimeter of the panel and accelerometer sensors located on the top vertices of the actuators. The third panel is composed of five electrodynamic inertial actuators with accelerometer sensors located under their footprints. The fourth panel is equipped with a light honeycomb trim panel mounted on four stiff mounts. A set of nine reactive electrodynamic actuators is located in the shallow cavity between the two panels. Accelerometer sensors are mounted at the two footprints of each actuator. The sensor-actuator pairs mounted in the four panels are used to implement analogue local feedback loops.
Gardonio, P.
bae5bf72-ea81-43a6-a756-d7153d2de77a
Gonzalez Diaz, C.
b1dc507d-839f-41a7-903b-8c5fd1c74435
Alujevic, N.
d38a070a-6c49-4a7d-826b-4bfdb03c75d9
Aoki, Y.
59681162-da15-44bc-9543-5dabe0b3f9bd
July 2008
Gardonio, P.
bae5bf72-ea81-43a6-a756-d7153d2de77a
Gonzalez Diaz, C.
b1dc507d-839f-41a7-903b-8c5fd1c74435
Alujevic, N.
d38a070a-6c49-4a7d-826b-4bfdb03c75d9
Aoki, Y.
59681162-da15-44bc-9543-5dabe0b3f9bd
Gardonio, P., Gonzalez Diaz, C., Alujevic, N. and Aoki, Y.
(2008)
Experimental tests on smart panels for the reduction of sound radiation.
2nd ASA-EAA Joint Conference, Acoustics '08, Paris, France.
28 Jun - 03 Jul 2008.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper presents a comparative experimental study carried out on four types of smart panels for the reduction of sound radiation. The four panels are equipped with decentralized velocity feedback control units that are designed to generate active damping. In this way the frequency averaged response and sound radiation produced by stochastic disturbances can be effectively reduced at low audio frequencies. The first smart panel is composed of a 4x4 array of square piezoelectric patch actuators with accelerometer sensors at their centres. The second smart panel is composed of sixteen triangularly shaped piezoelectric patch actuators with base edges evenly distributed along the perimeter of the panel and accelerometer sensors located on the top vertices of the actuators. The third panel is composed of five electrodynamic inertial actuators with accelerometer sensors located under their footprints. The fourth panel is equipped with a light honeycomb trim panel mounted on four stiff mounts. A set of nine reactive electrodynamic actuators is located in the shallow cavity between the two panels. Accelerometer sensors are mounted at the two footprints of each actuator. The sensor-actuator pairs mounted in the four panels are used to implement analogue local feedback loops.
This record has no associated files available for download.
More information
Published date: July 2008
Venue - Dates:
2nd ASA-EAA Joint Conference, Acoustics '08, Paris, France, 2008-06-28 - 2008-07-03
Identifiers
Local EPrints ID: 57810
URI: http://eprints.soton.ac.uk/id/eprint/57810
PURE UUID: 5f782c09-2226-4a27-8b18-3e4c87553434
Catalogue record
Date deposited: 20 Aug 2008
Last modified: 11 Dec 2021 17:54
Export record
Contributors
Author:
P. Gardonio
Author:
C. Gonzalez Diaz
Author:
N. Alujevic
Author:
Y. Aoki
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics