Ideal focusing and optimally-conditioned systems in sound field control with loudspeaker arrays
Ideal focusing and optimally-conditioned systems in sound field control with loudspeaker arrays
The focusing operation inherent to sound field control based on inverse filters is a fundamental aspect of the overall sound field reproduction that completely determines the system robustness and stability. The behaviour of the system is fundamentally tied to the amount of acoustic crosstalk at each control point that manifests as a result of the focus- ing operation. The maximisation of the crosstalk at just one point in space leads to linear dependence in the plant matrix and system instability. On the other hand, its minimisation leads to the ideal focusing state, wherein the sources can selectively focus at each point while a null is created at all other points. Two theoretical case studies are presented that demonstrate ideal and super ideal focusing, wherein the latter the plant matrix is optimally-conditioned. First, the application of binaural audio reproduction using an array of loudspeakers is examined and cases of ideal focusing are presented. In the process, the Optimal Source Distribution is re-derived and shown to be a specific case of super ideal focusing. Secondly, the application of recreating multiple sound zones using a linear array is examined and the conditions to achieve super ideal focusing at control points angled arbitrarily in the far-field are derived. In all cases, the ability to maintain ideal focusing as a function of frequency requires proportional changes in the source or control point geometry.
Beamforming, Crosstalk cancellation, Focusing, Linear discrete inverse problem, Matched filters, Optimally-conditioned, Sound field control
Hamdan, Eric C
69b15392-2019-435b-ad1d-8173f8d4a389
Fazi, Filippo
e5aefc08-ab45-47c1-ad69-c3f12d07d807
29 September 2021
Hamdan, Eric C
69b15392-2019-435b-ad1d-8173f8d4a389
Fazi, Filippo
e5aefc08-ab45-47c1-ad69-c3f12d07d807
Hamdan, Eric C and Fazi, Filippo
(2021)
Ideal focusing and optimally-conditioned systems in sound field control with loudspeaker arrays.
Journal of Sound and Vibration, 509, [116218].
(doi:10.1016/j.jsv.2021.116218).
Abstract
The focusing operation inherent to sound field control based on inverse filters is a fundamental aspect of the overall sound field reproduction that completely determines the system robustness and stability. The behaviour of the system is fundamentally tied to the amount of acoustic crosstalk at each control point that manifests as a result of the focus- ing operation. The maximisation of the crosstalk at just one point in space leads to linear dependence in the plant matrix and system instability. On the other hand, its minimisation leads to the ideal focusing state, wherein the sources can selectively focus at each point while a null is created at all other points. Two theoretical case studies are presented that demonstrate ideal and super ideal focusing, wherein the latter the plant matrix is optimally-conditioned. First, the application of binaural audio reproduction using an array of loudspeakers is examined and cases of ideal focusing are presented. In the process, the Optimal Source Distribution is re-derived and shown to be a specific case of super ideal focusing. Secondly, the application of recreating multiple sound zones using a linear array is examined and the conditions to achieve super ideal focusing at control points angled arbitrarily in the far-field are derived. In all cases, the ability to maintain ideal focusing as a function of frequency requires proportional changes in the source or control point geometry.
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Hamdan_Fazi_Ideal focusing and optimally-conditioned systems
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Accepted/In Press date: 16 May 2021
e-pub ahead of print date: 21 May 2021
Published date: 29 September 2021
Additional Information:
Funding Information:
The authors thank the subject editor and reviewers for their constructive input towards the preparation of the final article. This work was supported by the Engineering and Physical Sciences Research Council (EPSRC) through the University of Southampton’s Doctoral Training Partnership under Grant 1786079.
Publisher Copyright:
© 2021 Elsevier Ltd
Keywords:
Beamforming, Crosstalk cancellation, Focusing, Linear discrete inverse problem, Matched filters, Optimally-conditioned, Sound field control
Identifiers
Local EPrints ID: 453031
URI: http://eprints.soton.ac.uk/id/eprint/453031
ISSN: 0022-460X
PURE UUID: e00cd20e-fda4-47d8-9963-d996f3bb32b5
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Date deposited: 07 Jan 2022 17:41
Last modified: 17 Mar 2024 03:16
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Eric C Hamdan
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