Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering
Directional sensors, if collocated but perpendicularly oriented among themselves, would facilitate signal processing to uncouple the azimuth-polar direction from the time-frequency dimension-in addition to the physical advantage of spatial compactness. One such acoustical sensing unit is the well-kn...
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sg-ntu-dr.10356-1611892022-08-18T06:49:24Z Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering Du, Sandy Shiyu Wong, Thomas Kainam Song, Yang Nnonyelu, Chibuzo Joseph Wu, Ivan Yue School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Signal Processing Directional Sensor Directional sensors, if collocated but perpendicularly oriented among themselves, would facilitate signal processing to uncouple the azimuth-polar direction from the time-frequency dimension-in addition to the physical advantage of spatial compactness. One such acoustical sensing unit is the well-known "tri-axial velocity sensor" (also known as the "gradient sensor," the "velocity-sensor triad," the "acoustic vector sensor," and the "vector hydrophone"), which comprises three identical figure-8 sensors of the first directivity-order, collocated spatially but oriented perpendicularly of each other. The directivity of the figure-8 sensors is hypothetically raised to a higher order in this analytical investigation with an innocent hope to sharpen the overall triad's directionality and steerability. Against this wishful aspiration, this paper rigorously analyzes how the directivity-order would affect the triad's "spatial-matched-filter" beam's directional steering capability, revealing which directivity-order(s) would allow the beam-pattern of full maneuverability toward any azimuthal direction and which directivity-order(s) cannot. Published version S.S.D. and K.T.W. were supported, in part, by the National Natural Science Foundation of China via Grant No. 62071018. Y.S. was supported, in part, by the National Natural Science Foundation of China via Grant No. 61801128. 2022-08-18T06:49:24Z 2022-08-18T06:49:24Z 2022 Journal Article Du, S. S., Wong, T. K., Song, Y., Nnonyelu, C. J. & Wu, I. Y. (2022). Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering. Journal of the Acoustical Society of America, 151(2), 1158-1170. https://dx.doi.org/10.1121/10.0009312 0001-4966 https://hdl.handle.net/10356/161189 10.1121/10.0009312 35232109 2-s2.0-85125198881 2 151 1158 1170 en Journal of the Acoustical Society of America © 2022 Acoustical Society of America. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the Acoustical Society of America. The article appeared in Du, S. S., Wong, T. K., Song, Y., Nnonyelu, C. J. & Wu, I. Y. (2022). Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering. Journal of the Acoustical Society of America, 151(2), 1158-1170 and can be found at http://asa.scitation.org/doi/10.1121/10.0009312. application/pdf |
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Engineering::Electrical and electronic engineering Signal Processing Directional Sensor Du, Sandy Shiyu Wong, Thomas Kainam Song, Yang Nnonyelu, Chibuzo Joseph Wu, Ivan Yue Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| description |
Directional sensors, if collocated but perpendicularly oriented among themselves, would facilitate signal processing to uncouple the azimuth-polar direction from the time-frequency dimension-in addition to the physical advantage of spatial compactness. One such acoustical sensing unit is the well-known "tri-axial velocity sensor" (also known as the "gradient sensor," the "velocity-sensor triad," the "acoustic vector sensor," and the "vector hydrophone"), which comprises three identical figure-8 sensors of the first directivity-order, collocated spatially but oriented perpendicularly of each other. The directivity of the figure-8 sensors is hypothetically raised to a higher order in this analytical investigation with an innocent hope to sharpen the overall triad's directionality and steerability. Against this wishful aspiration, this paper rigorously analyzes how the directivity-order would affect the triad's "spatial-matched-filter" beam's directional steering capability, revealing which directivity-order(s) would allow the beam-pattern of full maneuverability toward any azimuthal direction and which directivity-order(s) cannot. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Du, Sandy Shiyu Wong, Thomas Kainam Song, Yang Nnonyelu, Chibuzo Joseph Wu, Ivan Yue |
| format |
Article |
| author |
Du, Sandy Shiyu Wong, Thomas Kainam Song, Yang Nnonyelu, Chibuzo Joseph Wu, Ivan Yue |
| author_sort |
Du, Sandy Shiyu |
| title |
Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| title_short |
Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| title_full |
Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| title_fullStr |
Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| title_full_unstemmed |
Higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| title_sort |
higher-order figure-8 microphones/hydrophones collocated as a perpendicular triad-their "spatial-matched-filter" beam steering |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161189 |
| _version_ |
1743119559082115072 |