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In-situ measurement of sound absorbing properties using plane-wave sound field reproduced by virtual loudspeaker array
Abstract A new method of measuring the acoustic properties of sound absorbing material in situ under reproduced plane wave sound field is proposed. This method employs a single loudspeaker to synthesize a virtual array of loudspeakers which reproduce the plane wave sound field in front of the material surface, and applies the standard transfer function method to measure acoustic impedance and absorption coefficient. Simulation shows that this method can accurately measure absorption coefficient in the frequency range of 100–1.6 k Hz. This method is also applied to measure the absorption coefficient and acoustic impedance of two test samples in a semi-anechoic chamber, and compared with two other existing in-situ measurement methods. The proposed method demonstrates higher accuracy in measuring both acoustic impedance and absorption coefficient for the strongly-absorbing material sample in the frequency range of 175–1.6 k Hz and for the weakly-absorbing material sample in the frequency range of 250–1.6 k Hz. Experimental results and theoretical analysis also show that insufficient signal-to-noise ratio and unwanted reflected waves contribute to the insufficient accuracy of this method below 175 Hz.
Highlights We propose a new method of measuring material's acoustic properties in situ. This method is based on sound field reproduction and the transfer function method. The proposed method is more accurate than two other in-situ measurement methods.
In-situ measurement of sound absorbing properties using plane-wave sound field reproduced by virtual loudspeaker array
Abstract A new method of measuring the acoustic properties of sound absorbing material in situ under reproduced plane wave sound field is proposed. This method employs a single loudspeaker to synthesize a virtual array of loudspeakers which reproduce the plane wave sound field in front of the material surface, and applies the standard transfer function method to measure acoustic impedance and absorption coefficient. Simulation shows that this method can accurately measure absorption coefficient in the frequency range of 100–1.6 k Hz. This method is also applied to measure the absorption coefficient and acoustic impedance of two test samples in a semi-anechoic chamber, and compared with two other existing in-situ measurement methods. The proposed method demonstrates higher accuracy in measuring both acoustic impedance and absorption coefficient for the strongly-absorbing material sample in the frequency range of 175–1.6 k Hz and for the weakly-absorbing material sample in the frequency range of 250–1.6 k Hz. Experimental results and theoretical analysis also show that insufficient signal-to-noise ratio and unwanted reflected waves contribute to the insufficient accuracy of this method below 175 Hz.
Highlights We propose a new method of measuring material's acoustic properties in situ. This method is based on sound field reproduction and the transfer function method. The proposed method is more accurate than two other in-situ measurement methods.
In-situ measurement of sound absorbing properties using plane-wave sound field reproduced by virtual loudspeaker array
Zhang, Yankai (author) / Kuang, Zheng (author) / Wu, Ming (author) / Yang, Jun (author)
Building and Environment ; 94 ; 883-890
2015-07-03
8 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2015
| British Library Online Contents | 2015
Sound-absorbing particle, sound-absorbing particle preparation method and loudspeaker
European Patent Office | 2023
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