A novel decentralized feedforward control strategy for a plate vibration without secondary path modeling using piezoelectric patch actuators

Yin Cao; Hong Ling Sun; Xiao Dong Li

doi:10.13465/j.cnki.jvs.2014.03.019

A novel decentralized feedforward control strategy for a plate vibration without secondary path modeling using piezoelectric patch actuators

Yin Cao, Hong Ling Sun^*, Xiao Dong Li

^*Corresponding author for this work

CAS - Institute of Acoustics

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Here, a novel decentralized feedforward control strategy for a plate vibration without secondary path modeling was proposed. This control method did not need any structure information of a plate and it could be used to control the harmonic vibrations of a plate at its off-resonance frequencies. A theoretical model and a test system for active vibration control of a plate supported simply using piezoelectric patch actuators and accelerometers were built. The stability of the control method was analyzed theoretically and experimentally. Besides, a kind of internal modal filter (IMF) was proposed, with it a acceleration signal could be converted into a velocity one. This IMF could guarantee the collocated properties of transducer pairs. Both simulation and test results showed that the decentralized feedforward control strategy is effective.

Original language	English
Pages (from-to)	98-104
Number of pages	7
Journal	Zhendong yu Chongji/Journal of Vibration and Shock
Volume	33
Issue number	3
DOIs	https://doi.org/10.13465/j.cnki.jvs.2014.03.019
Publication status	Published - 15 Feb 2014
Externally published	Yes

Keywords

Active vibration control
Decentralized feedforward control
No secondary path modeling

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10.13465/j.cnki.jvs.2014.03.019

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title = "A novel decentralized feedforward control strategy for a plate vibration without secondary path modeling using piezoelectric patch actuators",

abstract = "Here, a novel decentralized feedforward control strategy for a plate vibration without secondary path modeling was proposed. This control method did not need any structure information of a plate and it could be used to control the harmonic vibrations of a plate at its off-resonance frequencies. A theoretical model and a test system for active vibration control of a plate supported simply using piezoelectric patch actuators and accelerometers were built. The stability of the control method was analyzed theoretically and experimentally. Besides, a kind of internal modal filter (IMF) was proposed, with it a acceleration signal could be converted into a velocity one. This IMF could guarantee the collocated properties of transducer pairs. Both simulation and test results showed that the decentralized feedforward control strategy is effective.",

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T1 - A novel decentralized feedforward control strategy for a plate vibration without secondary path modeling using piezoelectric patch actuators

AU - Cao, Yin

AU - Sun, Hong Ling

AU - Li, Xiao Dong

PY - 2014/2/15

Y1 - 2014/2/15

N2 - Here, a novel decentralized feedforward control strategy for a plate vibration without secondary path modeling was proposed. This control method did not need any structure information of a plate and it could be used to control the harmonic vibrations of a plate at its off-resonance frequencies. A theoretical model and a test system for active vibration control of a plate supported simply using piezoelectric patch actuators and accelerometers were built. The stability of the control method was analyzed theoretically and experimentally. Besides, a kind of internal modal filter (IMF) was proposed, with it a acceleration signal could be converted into a velocity one. This IMF could guarantee the collocated properties of transducer pairs. Both simulation and test results showed that the decentralized feedforward control strategy is effective.

AB - Here, a novel decentralized feedforward control strategy for a plate vibration without secondary path modeling was proposed. This control method did not need any structure information of a plate and it could be used to control the harmonic vibrations of a plate at its off-resonance frequencies. A theoretical model and a test system for active vibration control of a plate supported simply using piezoelectric patch actuators and accelerometers were built. The stability of the control method was analyzed theoretically and experimentally. Besides, a kind of internal modal filter (IMF) was proposed, with it a acceleration signal could be converted into a velocity one. This IMF could guarantee the collocated properties of transducer pairs. Both simulation and test results showed that the decentralized feedforward control strategy is effective.

KW - Active vibration control

KW - Decentralized feedforward control

KW - No secondary path modeling

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JO - Zhendong yu Chongji/Journal of Vibration and Shock

JF - Zhendong yu Chongji/Journal of Vibration and Shock

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A novel decentralized feedforward control strategy for a plate vibration without secondary path modeling using piezoelectric patch actuators

Abstract

Keywords

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