Time-domain local wave field synthesis of virtual point sources
Time-domain local wave field synthesis of virtual point sources
Wave field synthesis is a sound field synthesis technique that is based on a high-frequency/far-field approximation of the Kirchhoff-Helmholtz integral equation. The sound field synthesized by a loudspeaker array with a finite spacing exhibits spatial aliasing artifacts above a certain frequency. Recent studies have shown that the synthesis accuracy can be improved within a local area, which commonly comes at the expense of increased errors in other regions. In this paper, we consider a local wave field synthesis approach that is based on spatial band-limitation of the target sound field up to a finite order. The time-domain driving function for virtual point sources is derived by representing the spatially band-limited sound field in terms of continuously distributed point sources on a sphere. Examining the time-of-arrival of the individual components enables us to express the driving function as a surface integral on the sphere, which can be derived analytically. The modal impulse responses of the driving function are described by the associated Legendre polynomials, which are implemented as FIR filters. Numerical experiments for a 2.5-dimensional configuration demonstrate the improved accuracy of the synthesized wavefront within pre-defined target regions.
Hahn, Nara
9c5cb8ff-b351-40ff-974b-9635a790ec16
Schultz, Frank
be3b9f69-2f4b-43cf-a63a-49c83f682696
Spors, Sascha
b6b8edac-0bff-403a-9281-df22c62da941
Hahn, Nara
9c5cb8ff-b351-40ff-974b-9635a790ec16
Schultz, Frank
be3b9f69-2f4b-43cf-a63a-49c83f682696
Spors, Sascha
b6b8edac-0bff-403a-9281-df22c62da941
Hahn, Nara, Schultz, Frank and Spors, Sascha
(2023)
Time-domain local wave field synthesis of virtual point sources.
In 2023 Immersive and 3D Audio: from Architecture to Automotive (I3DA).
IEEE.
10 pp
.
(doi:10.1109/I3DA57090.2023.10289499).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Wave field synthesis is a sound field synthesis technique that is based on a high-frequency/far-field approximation of the Kirchhoff-Helmholtz integral equation. The sound field synthesized by a loudspeaker array with a finite spacing exhibits spatial aliasing artifacts above a certain frequency. Recent studies have shown that the synthesis accuracy can be improved within a local area, which commonly comes at the expense of increased errors in other regions. In this paper, we consider a local wave field synthesis approach that is based on spatial band-limitation of the target sound field up to a finite order. The time-domain driving function for virtual point sources is derived by representing the spatially band-limited sound field in terms of continuously distributed point sources on a sphere. Examining the time-of-arrival of the individual components enables us to express the driving function as a surface integral on the sphere, which can be derived analytically. The modal impulse responses of the driving function are described by the associated Legendre polynomials, which are implemented as FIR filters. Numerical experiments for a 2.5-dimensional configuration demonstrate the improved accuracy of the synthesized wavefront within pre-defined target regions.
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e-pub ahead of print date: 23 October 2023
Venue - Dates:
2023 Immersive and 3D Audio: from Architecture to Automotive: I3DA 2023, University of Bologna, Bologna, Italy, 2023-09-05 - 2023-09-07
Identifiers
Local EPrints ID: 487079
URI: http://eprints.soton.ac.uk/id/eprint/487079
PURE UUID: bc8d44db-6107-4ce0-86c6-f203a1f4bdb4
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Date deposited: 13 Feb 2024 17:31
Last modified: 18 Mar 2024 04:05
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Contributors
Author:
Nara Hahn
Author:
Frank Schultz
Author:
Sascha Spors
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