Remote microphone virtual sensing with nested microphone sub-arrays
Remote microphone virtual sensing with nested microphone sub-arrays
This study uses the Remote Microphone Technique to investigate the use of nested sub-arrays that incorporate either pressure, or both pressure and pressure gradient information to estimate the pressure at remote locations in a random sound field. The sub-arrays of either pressure sensors or closely spaced microphone pairs are nested to form both uniform linear and circular arrays. The performance of the different configurations is evaluated through both experiments and simulations in terms of the level of estimation error and the spatial extent over which a low estimation error can be achieved. The presented results show that the use of nested arrays of closely spaced microphone pairs outperforms conventional arrays that use pressure alone, both in terms of the estimation error and the size of the estimation zone. Overall, the circular configurations are shown to outperform the equivalent linear configurations. The gains in nominal performance, however, are paid for by an increase in the condition number, which influences the robustness of these arrays to uncertainties. The paper highlights the importance of array topology and the advantages provided by the inclusion of pressure gradient information into the estimation of the pressure at remote locations.
407-418
Kappis, Achilles
db87741c-ba64-4e07-a1c8-24c497637765
Zhang, Aimee
6c5536d1-5066-437b-987c-c2307021709d
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
16 July 2025
Kappis, Achilles
db87741c-ba64-4e07-a1c8-24c497637765
Zhang, Aimee
6c5536d1-5066-437b-987c-c2307021709d
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Kappis, Achilles, Zhang, Aimee and Cheer, Jordan
(2025)
Remote microphone virtual sensing with nested microphone sub-arrays.
Journal of the Acoustical Society of America, 158 (1), .
(doi:10.1121/10.0037077).
Abstract
This study uses the Remote Microphone Technique to investigate the use of nested sub-arrays that incorporate either pressure, or both pressure and pressure gradient information to estimate the pressure at remote locations in a random sound field. The sub-arrays of either pressure sensors or closely spaced microphone pairs are nested to form both uniform linear and circular arrays. The performance of the different configurations is evaluated through both experiments and simulations in terms of the level of estimation error and the spatial extent over which a low estimation error can be achieved. The presented results show that the use of nested arrays of closely spaced microphone pairs outperforms conventional arrays that use pressure alone, both in terms of the estimation error and the size of the estimation zone. Overall, the circular configurations are shown to outperform the equivalent linear configurations. The gains in nominal performance, however, are paid for by an increase in the condition number, which influences the robustness of these arrays to uncertainties. The paper highlights the importance of array topology and the advantages provided by the inclusion of pressure gradient information into the estimation of the pressure at remote locations.
Text
Nested Microphone Arrays
- Accepted Manuscript
More information
Accepted/In Press date: 15 June 2025
Published date: 16 July 2025
Identifiers
Local EPrints ID: 504255
URI: http://eprints.soton.ac.uk/id/eprint/504255
ISSN: 0001-4966
PURE UUID: fd682f21-8b75-4ca6-87b2-410f21133b37
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Date deposited: 02 Sep 2025 16:52
Last modified: 03 Sep 2025 02:09
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Author:
Achilles Kappis
Author:
Aimee Zhang
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