A multiple microphone recording technique for the generation of virtual acoustic images
A multiple microphone recording technique for the generation of virtual acoustic images
A new recording technique based on multichannel digital signal processing is suggested. The system uses a dummy-head that is modeled as a rigid sphere with two pairs of microphones mounted on opposite sides of the sphere in the horizontal plane. Reversals - front back confusion, is a well- known phenomenon when localizing virtual acoustic images produced by either headphones or loudspeakers. Reproduction with two loudspeakers to the front of the listener causes rear virtual acoustic images to be perceived primarily at 'mirrored' angles in the frontal hemisphere. The problem is tackled here by using a multichannel signal processing technique rather than by mimicking accurately the acoustomechanical properties of a human head. The acoustic signals which are recorded at the microphones are filtered by a 4 x 4 matrix of digital filters before being transmitted via four loudspeakers. The performance of the system is investigated by means of computer simulations, objective measurements, and also by subjective experiments in an anechoic environment, where the listeners are asked to localize the perceived angle of the signals which were prerecorded with the sphere dummy-head. Successful discrimination of reversals is achieved primarily due to the dominant role of the interaural time delay (ITD) for localization at low frequencies, but the accuracy with which listeners can localize virtual acoustic images is reduced in comparison to a conventional two-ear dummy-head (e.g., KEMAR) with a two- loudspeaker arrangement. The system is robust with respect to head rotations - virtual acoustic images do not disappear and localization ability improves when listeners use small head rotations.
Kahana, Yuvi
2717aa40-1663-4de3-955b-2296132fd175
Nelson, Philip A.
5c6f5cc9-ea52-4fe2-9edf-05d696b0c1a9
Kirkeby, Ole
aac71fe8-acd1-48a1-9d26-f8de12b45443
Hamada, Hareo
63a6b688-1872-403b-96d4-0d632a098793
2 March 1999
Kahana, Yuvi
2717aa40-1663-4de3-955b-2296132fd175
Nelson, Philip A.
5c6f5cc9-ea52-4fe2-9edf-05d696b0c1a9
Kirkeby, Ole
aac71fe8-acd1-48a1-9d26-f8de12b45443
Hamada, Hareo
63a6b688-1872-403b-96d4-0d632a098793
Kahana, Yuvi, Nelson, Philip A., Kirkeby, Ole and Hamada, Hareo
(1999)
A multiple microphone recording technique for the generation of virtual acoustic images.
Journal of the Acoustical Society of America, 105 (3), [1503].
(doi:10.1121/1.426690).
Abstract
A new recording technique based on multichannel digital signal processing is suggested. The system uses a dummy-head that is modeled as a rigid sphere with two pairs of microphones mounted on opposite sides of the sphere in the horizontal plane. Reversals - front back confusion, is a well- known phenomenon when localizing virtual acoustic images produced by either headphones or loudspeakers. Reproduction with two loudspeakers to the front of the listener causes rear virtual acoustic images to be perceived primarily at 'mirrored' angles in the frontal hemisphere. The problem is tackled here by using a multichannel signal processing technique rather than by mimicking accurately the acoustomechanical properties of a human head. The acoustic signals which are recorded at the microphones are filtered by a 4 x 4 matrix of digital filters before being transmitted via four loudspeakers. The performance of the system is investigated by means of computer simulations, objective measurements, and also by subjective experiments in an anechoic environment, where the listeners are asked to localize the perceived angle of the signals which were prerecorded with the sphere dummy-head. Successful discrimination of reversals is achieved primarily due to the dominant role of the interaural time delay (ITD) for localization at low frequencies, but the accuracy with which listeners can localize virtual acoustic images is reduced in comparison to a conventional two-ear dummy-head (e.g., KEMAR) with a two- loudspeaker arrangement. The system is robust with respect to head rotations - virtual acoustic images do not disappear and localization ability improves when listeners use small head rotations.
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Accepted/In Press date: 11 November 1998
Published date: 2 March 1999
Additional Information:
Copyright:
Copyright 2007 Elsevier B.V., All rights reserved.
Identifiers
Local EPrints ID: 468756
URI: http://eprints.soton.ac.uk/id/eprint/468756
ISSN: 0001-4966
PURE UUID: e1aa300e-ec3f-4ff1-ae35-543ec8a839ab
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Date deposited: 24 Aug 2022 16:52
Last modified: 17 Mar 2024 02:32
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Author:
Yuvi Kahana
Author:
Ole Kirkeby
Author:
Hareo Hamada
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