Reduced order modeling of head related impulse responses for virtual acoustic displays.
Reduced order modeling of head related impulse responses for virtual acoustic displays.
This study investigated the use of reduced order head related impulse response (HRIR) models to improve the computational efficiency in acoustic virtual displays. State space models of varying order were generated from zero-elevation HRIRs using a singular value decomposition technique. A source identification experiment was conducted under anechoic conditions in which three subjects were required to localize sounds in the front horizontal plane. The sounds were either (1) real sources (emitted by individual loudspeakers in a semi-circular array), (2) virtual sources generated from the original HRIRs, or (3) virtual sources generated using reduced order state space models. All virtual sources were created by simultaneous activation of two loudspeakers at ±30° using a virtual source imaging technique based on either the measured or modeled HRIRs. The errors in the perceived direction of the virtual sources generated from the reduced order models were compared to errors in localization using the original HRIRs. The results demonstrate that a very significant reduction in model size can be achieved without significantly affecting the fidelity of the virtual display of horizontally placed sources.
3116-3125
Grantham, D. Wesley
a2dc4972-9b6d-4a71-80d6-ceb24b78478b
Willhite, Joel Andrew
e4218754-172c-4e38-8689-ef0b20329fca
Frampton, Kennenth D.
5caa5d09-fe5a-4965-89fb-4bb6219ff50f
Ashmead, Daniel H.
b9073a6d-9399-4d9a-99ce-75985175791c
2005
Grantham, D. Wesley
a2dc4972-9b6d-4a71-80d6-ceb24b78478b
Willhite, Joel Andrew
e4218754-172c-4e38-8689-ef0b20329fca
Frampton, Kennenth D.
5caa5d09-fe5a-4965-89fb-4bb6219ff50f
Ashmead, Daniel H.
b9073a6d-9399-4d9a-99ce-75985175791c
Grantham, D. Wesley, Willhite, Joel Andrew, Frampton, Kennenth D. and Ashmead, Daniel H.
(2005)
Reduced order modeling of head related impulse responses for virtual acoustic displays.
Journal of the Acoustical Society of America, 117 (5), .
(doi:10.1121/1.1882944).
Abstract
This study investigated the use of reduced order head related impulse response (HRIR) models to improve the computational efficiency in acoustic virtual displays. State space models of varying order were generated from zero-elevation HRIRs using a singular value decomposition technique. A source identification experiment was conducted under anechoic conditions in which three subjects were required to localize sounds in the front horizontal plane. The sounds were either (1) real sources (emitted by individual loudspeakers in a semi-circular array), (2) virtual sources generated from the original HRIRs, or (3) virtual sources generated using reduced order state space models. All virtual sources were created by simultaneous activation of two loudspeakers at ±30° using a virtual source imaging technique based on either the measured or modeled HRIRs. The errors in the perceived direction of the virtual sources generated from the reduced order models were compared to errors in localization using the original HRIRs. The results demonstrate that a very significant reduction in model size can be achieved without significantly affecting the fidelity of the virtual display of horizontally placed sources.
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Published date: 2005
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Local EPrints ID: 42051
URI: http://eprints.soton.ac.uk/id/eprint/42051
ISSN: 0001-4966
PURE UUID: d28ab3e7-23ed-44f0-9477-e418e3cb0aed
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Date deposited: 10 Nov 2006
Last modified: 15 Mar 2024 08:43
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Contributors
Author:
D. Wesley Grantham
Author:
Joel Andrew Willhite
Author:
Kennenth D. Frampton
Author:
Daniel H. Ashmead
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