Optimal vibration control of a plate using optical fiber sensor and PZT actuator

Do Hyung Kim; Jae Hung Han; Seung Man Yang; Dae Hyun Kim; In Lee; Chun Gon Kim; Chang Sun Hong

doi:10.1088/0964-1726/12/4/301

Optimal vibration control of a plate using optical fiber sensor and PZT actuator

Do Hyung Kim, Jae Hung Han, Seung Man Yang, Dae Hyun Kim, In Lee, Chun Gon Kim, Chang Sun Hong

Dept. of Mechanical & Automotive Engineering

Korea Advanced Institute of Science and Technology

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

7 Scopus citations

Abstract

Vibration control of a plate using an optical fiber sensor and a PZT actuator is considered in this study. An aluminum plate with attached extrinsic Fabry-Perot interferometer (EFPI) and PZT actuator is prepared for experimental investigation. The vibration level of EFPI that can represent the mechanical strain without severe distortion is validated by a forced vibration experiment. A linear time-invariant system model is constructed based on the experimentally obtained frequency responses, and an optimal controller is designed for the multi-modal vibration suppression. Control performance is presented in frequency and time domains. It is found that the vibration level of the first three modes can be greatly reduced. The effect of low-pass filtering used to eliminate high frequency noise on the stability and control performance is also considered.

Original language	English
Pages (from-to)	507-513
Number of pages	7
Journal	Smart Materials and Structures
Volume	12
Issue number	4
DOIs	https://doi.org/10.1088/0964-1726/12/4/301
State	Published - Aug 2003

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title = "Optimal vibration control of a plate using optical fiber sensor and PZT actuator",

abstract = "Vibration control of a plate using an optical fiber sensor and a PZT actuator is considered in this study. An aluminum plate with attached extrinsic Fabry-Perot interferometer (EFPI) and PZT actuator is prepared for experimental investigation. The vibration level of EFPI that can represent the mechanical strain without severe distortion is validated by a forced vibration experiment. A linear time-invariant system model is constructed based on the experimentally obtained frequency responses, and an optimal controller is designed for the multi-modal vibration suppression. Control performance is presented in frequency and time domains. It is found that the vibration level of the first three modes can be greatly reduced. The effect of low-pass filtering used to eliminate high frequency noise on the stability and control performance is also considered.",

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AU - Kim, Do Hyung

AU - Han, Jae Hung

AU - Yang, Seung Man

AU - Kim, Dae Hyun

AU - Lee, In

AU - Kim, Chun Gon

AU - Hong, Chang Sun

PY - 2003/8

Y1 - 2003/8

N2 - Vibration control of a plate using an optical fiber sensor and a PZT actuator is considered in this study. An aluminum plate with attached extrinsic Fabry-Perot interferometer (EFPI) and PZT actuator is prepared for experimental investigation. The vibration level of EFPI that can represent the mechanical strain without severe distortion is validated by a forced vibration experiment. A linear time-invariant system model is constructed based on the experimentally obtained frequency responses, and an optimal controller is designed for the multi-modal vibration suppression. Control performance is presented in frequency and time domains. It is found that the vibration level of the first three modes can be greatly reduced. The effect of low-pass filtering used to eliminate high frequency noise on the stability and control performance is also considered.

AB - Vibration control of a plate using an optical fiber sensor and a PZT actuator is considered in this study. An aluminum plate with attached extrinsic Fabry-Perot interferometer (EFPI) and PZT actuator is prepared for experimental investigation. The vibration level of EFPI that can represent the mechanical strain without severe distortion is validated by a forced vibration experiment. A linear time-invariant system model is constructed based on the experimentally obtained frequency responses, and an optimal controller is designed for the multi-modal vibration suppression. Control performance is presented in frequency and time domains. It is found that the vibration level of the first three modes can be greatly reduced. The effect of low-pass filtering used to eliminate high frequency noise on the stability and control performance is also considered.

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Optimal vibration control of a plate using optical fiber sensor and PZT actuator

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