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Active Vibration Control of Acoustically Loaded Flexible Plate Enclosure Using Multi-Channel Control Algorithm
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 Title & Authors
Active Vibration Control of Acoustically Loaded Flexible Plate Enclosure Using Multi-Channel Control Algorithm
Hong, Jin-Seok; Park, Su-Hong; Kim, Heung-Seop; O, Jae-Eung; Jeong, Jin-Tae;
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 Abstract
This paper presents the multi-channel active vibration control of a flexible plate of the acoustically loaded enclosure. The flexible plate was excited acoustically with sinusoidal and white noise input. The control was performed by two piezo ceramic actuators and two accelerometers. The experimental results were compared with the single channel control results. In the case of white noise input, 20 dB of vibration reduction was achieved below 300Hz frequency range. The experimental results demonstrate that multi-channel filtered-x LMS algorithm is effective than single-channel filtered-x LMS algorithm in active vibration control of plate.
 Keywords
Filtered-x LMS;Active Vibration Control;Piezo Ceramic Actuator;Multi-Channel Control Algorithm;Acoustically Loaded Enclosure;
 Language
Korean
 Cited by
1.
실시간 적응 학습 진화 알고리듬을 이용한 자기 동조 PID 제어,장성욱;이진걸;

대한기계학회논문집A, 2003. vol.27. 9, pp.1463-1468 crossref(new window)
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