Comparison of decentralized velocity feedback control for thin homogeneous and stiff sandwich panels using electrodynamic proof-mass actuators
Comparison of decentralized velocity feedback control for thin homogeneous and stiff sandwich panels using electrodynamic proof-mass actuators
Theoretical and experimental work is presented to compare the effect of decentralised velocity feedback control on thin homogeneous and sandwich panels. The decentralised control system consists of five control units, which are composed of a proof-mass electrodynamic actuator with an accelerometer underneath its footprint and an analogue controller. The stability of the feedback loops is analysed by considering the sensor-actuator open-loop frequency response function of each control unit and the eigenvalues of the fully populated matrix of open-loop frequency response functions between the five sensors and five actuators. The control performance is then analysed in terms of the time-averaged total kinetic energy and total sound power radiated by the two panels. The results show that for a stiff sandwich panel higher stable feedback gains can be implemented than on a thin homogeneous panel of comparable weight per unit area. Moreover the implementation of decentralised velocity feedback can offset some of the undesirable sound transmission properties of lightweight sandwich structures by efficiently reducing structural vibration and sound power radiation in the mid audio frequency range.
Rohlfing, J.
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Gardonio, P.
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Thompson, D.J.
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November 2010
Rohlfing, J.
d8f611a6-8ee7-47bd-8616-59d806bc1788
Gardonio, P.
bae5bf72-ea81-43a6-a756-d7153d2de77a
Thompson, D.J.
bca37fd3-d692-4779-b663-5916b01edae5
Rohlfing, J., Gardonio, P. and Thompson, D.J.
(2010)
Comparison of decentralized velocity feedback control for thin homogeneous and stiff sandwich panels using electrodynamic proof-mass actuators.
Journal of Sound and Vibration.
(doi:10.1016/j.jsv.2010.09.013).
Abstract
Theoretical and experimental work is presented to compare the effect of decentralised velocity feedback control on thin homogeneous and sandwich panels. The decentralised control system consists of five control units, which are composed of a proof-mass electrodynamic actuator with an accelerometer underneath its footprint and an analogue controller. The stability of the feedback loops is analysed by considering the sensor-actuator open-loop frequency response function of each control unit and the eigenvalues of the fully populated matrix of open-loop frequency response functions between the five sensors and five actuators. The control performance is then analysed in terms of the time-averaged total kinetic energy and total sound power radiated by the two panels. The results show that for a stiff sandwich panel higher stable feedback gains can be implemented than on a thin homogeneous panel of comparable weight per unit area. Moreover the implementation of decentralised velocity feedback can offset some of the undesirable sound transmission properties of lightweight sandwich structures by efficiently reducing structural vibration and sound power radiation in the mid audio frequency range.
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Published date: November 2010
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Local EPrints ID: 167455
URI: http://eprints.soton.ac.uk/id/eprint/167455
ISSN: 0022-460X
PURE UUID: 3feefd4b-4767-416b-9a5d-591a211f908c
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Date deposited: 12 Nov 2010 14:15
Last modified: 14 Mar 2024 02:40
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Author:
J. Rohlfing
Author:
P. Gardonio
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