Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/17497
Title: Semi-active noise suppression based on SSD technique using piezoelectric elements
Authors: Ji, H
Cheng, L 
Qiu, J
Nie, H
Keywords: Noise suppression
Piezoelectric elements
Semi-active control
Synchronized switch damping
Issue Date: 2014
Publisher: Australian Acoustical Society
Source: INTERNOISE 2014 - 43rd International Congress on Noise Control Engineering: Improving the World Through Noise Control, 2014 (CD-ROM) How to cite?
Journal: INTERNOISE 2014 - 43rd International Congress on Noise Control Engineering: Improving the World Through Noise Control 
Abstract: Noise suppression using piezoelectric elements has received extensive attention in recent years. Traditional active noise control methods usually require the use of microphones as sensors to directly measure the sound pressure in either feed-forward or feedback control schemes. This makes the traditional active noise isolation more difficult to implement in some practical applications. Nonlinear semi-active Synchronized Switch Damping (SSD) approaches are typical switched-voltage control methods, which have recently been a topic of active research in the field of vibration control. In this paper, SSD method is proposed for the suppression of noise transmission through an aluminum panel. In a typical SSD setting, microphones are not required for feedback control, but are used merely as sensors to evaluate the control performance. The layout of the piezoelectric elements on the panel has been optimized based on the mode shape dominating the noise radiation. SSDV (SSD based on voltage sources) was used to improve the control performance. Experimental results show that the proposed control approach exhibits good performance in suppressing noise transmission.
Description: 43rd International Congress on Noise Control Engineering: Improving the World Through Noise Control, INTERNOISE 2014, Melbourne, 16-19 November 2014
URI: http://hdl.handle.net/10397/17497
ISBN: 9.78E+12
Appears in Collections:Conference Paper

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