DocumentCode
2461320
Title
Influences on Spatial Directivity of Acoustic Vector Sensor by Soft Spherical Boundary
Author
Jian-fei, Ji ; Guo-long, Liang ; Yu-lin, Huang ; Yang, Li
Author_Institution
Nat. Lab. of Underwater Acoust. Technol., Harbin Eng. Univ., Harbin, China
fYear
2010
fDate
17-19 Dec. 2010
Firstpage
794
Lastpage
799
Abstract
In the free field, making full use of scalar and vector information of acoustic field can bring many advantages for acoustic measurement, but under the conditions of the existence of sound baffle, the sound field should be distorted due to the superposition of diffraction wave. Taking the soft spherical baffle as background, the sphere scattering model is established, the diffraction pressure field and particle velocity field under the condition of different frequency, distance and incident angle is analyzed. The effect of diffraction wave on sound pressure and particle velocity is determined by the amplitude of diffraction wave and the phase difference between the diffraction wave and the incident wave, which is related with the frequency, distance and incident angle. The effect of diffraction wave on sound pressure and the particle velocity components in y axis is strong only on near field and high frequency, but for particle velocity component in x axis, on near field, the effect is always strong both at high and low frequency. The effect of diffraction wave can be ignored only in the far field for particle velocity component in x axis. The description of reference for influences on the directivity of vector sensor by soft ball boundary is not consistent with us.
Keywords
acoustic devices; acoustic field; acoustic wave velocity; sensors; acoustic field; acoustic vector sensor; diffraction pressure field; diffraction wave; particle velocity field; scalar information; soft spherical baffle; soft spherical boundary; sound baffle; sound field; sound pressure; spatial directivity; sphere scattering model; vector information; Acoustic diffraction; Acoustic measurements; Diffraction; Shape; Underwater acoustics; Vibrations; directivity; sound diffraction; vector sensor;
fLanguage
English
Publisher
ieee
Conference_Titel
Computational and Information Sciences (ICCIS), 2010 International Conference on
Conference_Location
Chengdu
Print_ISBN
978-1-4244-8814-8
Electronic_ISBN
978-0-7695-4270-6
Type
conf
DOI
10.1109/ICCIS.2010.198
Filename
5709207
Link To Document