A physiologically inspired model of auditory stream segregation based on a temporal coherence analysis

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

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A physiologically inspired model of auditory stream segregation based on a temporal coherence analysis. / Christiansen, Simon Krogholt; Jepsen, Morten Løve; Dau, Torsten.

Proceedings of Meetings on Acoustics. Vol. 15 Acoustical Society of America, 2012.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

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Christiansen SK, Jepsen ML, Dau T. A physiologically inspired model of auditory stream segregation based on a temporal coherence analysis. In Proceedings of Meetings on Acoustics. Vol. 15. Acoustical Society of America. 2012.

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Christiansen, Simon Krogholt; Jepsen, Morten Løve; Dau, Torsten / A physiologically inspired model of auditory stream segregation based on a temporal coherence analysis.

Proceedings of Meetings on Acoustics. Vol. 15 Acoustical Society of America, 2012.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Bibtex

@inbook{1df9d19ffc314d50ac145bec4c14be96,
title = "A physiologically inspired model of auditory stream segregation based on a temporal coherence analysis",
publisher = "Acoustical Society of America",
author = "Christiansen, {Simon Krogholt} and Jepsen, {Morten Løve} and Torsten Dau",
year = "2012",
volume = "15",
booktitle = "Proceedings of Meetings on Acoustics",

}

RIS

TY - GEN

T1 - A physiologically inspired model of auditory stream segregation based on a temporal coherence analysis

A1 - Christiansen,Simon Krogholt

A1 - Jepsen,Morten Løve

A1 - Dau,Torsten

AU - Christiansen,Simon Krogholt

AU - Jepsen,Morten Løve

AU - Dau,Torsten

PB - Acoustical Society of America

PY - 2012

Y1 - 2012

N2 - The ability to perceptually separate acoustic sources and focus one’s attention on a single source at a time is essential for our ability to use acoustic information. In this study, a physiologically inspired model of human auditory processing [M. L. Jepsen and T. Dau, J. Acoust. Soc. Am. 124, 422-438, (2008)] was used as a front end of a model for auditory stream segregation. A temporal coherence analysis [M. Elhilali, C. Ling, C. Micheyl, A. J. Oxenham and S. Shamma, Neuron. 61, 317-329, (2009)] was applied at the output of the preprocessing, using the coherence across tonotopic channels to<br/>group activity across frequency. Using this approach, the described model is able to quantitatively account for classical streaming phenomena relying on frequency separation and tone presentation rate, such as the temporal coherence boundary and the fission boundary [L. P. A. S. van Noorden, doctoral dissertation, Institute for Perception Research, Eindhoven,<br/>NL, (1975)]. The same model also accounts for the perceptual grouping of distant spectral components in the case of synchronous presentation. The most essential components of the front-end and back-end processing in the framework of the presented model are analysed and future perspectives discussed.

AB - The ability to perceptually separate acoustic sources and focus one’s attention on a single source at a time is essential for our ability to use acoustic information. In this study, a physiologically inspired model of human auditory processing [M. L. Jepsen and T. Dau, J. Acoust. Soc. Am. 124, 422-438, (2008)] was used as a front end of a model for auditory stream segregation. A temporal coherence analysis [M. Elhilali, C. Ling, C. Micheyl, A. J. Oxenham and S. Shamma, Neuron. 61, 317-329, (2009)] was applied at the output of the preprocessing, using the coherence across tonotopic channels to<br/>group activity across frequency. Using this approach, the described model is able to quantitatively account for classical streaming phenomena relying on frequency separation and tone presentation rate, such as the temporal coherence boundary and the fission boundary [L. P. A. S. van Noorden, doctoral dissertation, Institute for Perception Research, Eindhoven,<br/>NL, (1975)]. The same model also accounts for the perceptual grouping of distant spectral components in the case of synchronous presentation. The most essential components of the front-end and back-end processing in the framework of the presented model are analysed and future perspectives discussed.

VL - 15

BT - Proceedings of Meetings on Acoustics

T2 - Proceedings of Meetings on Acoustics

ER -