Local wave field synthesis by temporal bandlimitation
Local wave field synthesis by temporal bandlimitation
Wave Field Synthesis (WFS) aims at the reproduction of a desired target wavefront by driving an ideally continuous loudspeaker distribution with properly chosen secondary source driving signals. In practical applications, using a discrete set of loudspeakers degrades the accuracy of reproduction heavily due to the violation of the theoretical requirements. As a result, spatial aliasing wavefronts emerge from the individual loudspeaker elements in addition to the intended virtual wavefront, perceived as strong coloration above the so-called spatial aliasing frequency. Local Wave Field Synthesis (LWFS) approaches improve the reproduction accuracy over a limited listening area by allowing stronger artifacts outside the control region. The present contribution discusses a novel LWFS approach, relying on the transformation of spatially defined antialiasing filters into an equivalent temporal filter bank. The resulting antialiased driving functions ensure aliasing-free synthesis at a predefined listening position at the cost of temporally bandlimited sound field at other listening regions. The results of the proposed approach are compared with a recent LWFS approach employing direct spatial bandlimitation.
Firtha, Gergely
5a448d36-30e7-41b3-a32a-82d0c63f4b37
Hahn, Nara
9c5cb8ff-b351-40ff-974b-9635a790ec16
Schultz, Frank
be3b9f69-2f4b-43cf-a63a-49c83f682696
Fiala, Péter
2dfabd3a-ff58-4550-97f5-d51829a3d0a4
Firtha, Gergely
5a448d36-30e7-41b3-a32a-82d0c63f4b37
Hahn, Nara
9c5cb8ff-b351-40ff-974b-9635a790ec16
Schultz, Frank
be3b9f69-2f4b-43cf-a63a-49c83f682696
Fiala, Péter
2dfabd3a-ff58-4550-97f5-d51829a3d0a4
Firtha, Gergely, Hahn, Nara, Schultz, Frank and Fiala, Péter
(2023)
Local wave field synthesis by temporal bandlimitation.
In 2023 Immersive and 3D Audio: from Architecture to Automotive (I3DA).
IEEE.
10 pp
.
(doi:10.1109/I3DA57090.2023.10289596).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Wave Field Synthesis (WFS) aims at the reproduction of a desired target wavefront by driving an ideally continuous loudspeaker distribution with properly chosen secondary source driving signals. In practical applications, using a discrete set of loudspeakers degrades the accuracy of reproduction heavily due to the violation of the theoretical requirements. As a result, spatial aliasing wavefronts emerge from the individual loudspeaker elements in addition to the intended virtual wavefront, perceived as strong coloration above the so-called spatial aliasing frequency. Local Wave Field Synthesis (LWFS) approaches improve the reproduction accuracy over a limited listening area by allowing stronger artifacts outside the control region. The present contribution discusses a novel LWFS approach, relying on the transformation of spatially defined antialiasing filters into an equivalent temporal filter bank. The resulting antialiased driving functions ensure aliasing-free synthesis at a predefined listening position at the cost of temporally bandlimited sound field at other listening regions. The results of the proposed approach are compared with a recent LWFS approach employing direct spatial bandlimitation.
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More information
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: 487078
URI: http://eprints.soton.ac.uk/id/eprint/487078
PURE UUID: eede4917-f96a-4c79-b1ed-6821a927761a
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Date deposited: 13 Feb 2024 17:31
Last modified: 18 Mar 2024 04:05
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Contributors
Author:
Gergely Firtha
Author:
Nara Hahn
Author:
Frank Schultz
Author:
Péter Fiala
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