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Using the short-time correlation coefficient to compare transient-and derived, noise-evoked otoacoustic emission temporal waveforms

Using the short-time correlation coefficient to compare transient-and derived, noise-evoked otoacoustic emission temporal waveforms
Using the short-time correlation coefficient to compare transient-and derived, noise-evoked otoacoustic emission temporal waveforms
Transient-evoked otoacoustic emissions (TEOAEs) and derived, noise-evoked otoacoustic emissions (derived-NEOAEs) were measured in seven normally hearing subjects. The evoked OAEs were all recorded at three excitation levels chosen to ensure that the OAE level curve compressive region was reached. The short-time correlation coefficient (STCC) was used to compare the OAE waveforms at different excitation levels, and thus estimate the time over which the response exceeds the noise level.
The short-time correlation for TEOAEs is significant for longer than it is for NEOAEs, particularly in some individuals, and the STCC allows this to be quantified. This suggests that derived NEOAEs do not display the highly synchronized dominant frequencies often seen in TEOAEs. This has been confirmed by examining the derived frequency responses for the two types of excitation. Conventional TEOAEs thus appear to measure a combination of two conceptually different processes, while NEOAEs measure just one.
0001-4966
2989-2998
Harte, James M.
1ed3b723-9209-4f46-911d-2f2f345e0a32
Elliott, Stephen J.
c9f9ac1e-6b58-4057-ab63-761a21eaacfc
Harte, James M.
1ed3b723-9209-4f46-911d-2f2f345e0a32
Elliott, Stephen J.
c9f9ac1e-6b58-4057-ab63-761a21eaacfc

Harte, James M. and Elliott, Stephen J. (2005) Using the short-time correlation coefficient to compare transient-and derived, noise-evoked otoacoustic emission temporal waveforms. Journal of the Acoustical Society of America, 117 (5), 2989-2998. (doi:10.1121/1.1893285).

Record type: Article

Abstract

Transient-evoked otoacoustic emissions (TEOAEs) and derived, noise-evoked otoacoustic emissions (derived-NEOAEs) were measured in seven normally hearing subjects. The evoked OAEs were all recorded at three excitation levels chosen to ensure that the OAE level curve compressive region was reached. The short-time correlation coefficient (STCC) was used to compare the OAE waveforms at different excitation levels, and thus estimate the time over which the response exceeds the noise level.
The short-time correlation for TEOAEs is significant for longer than it is for NEOAEs, particularly in some individuals, and the STCC allows this to be quantified. This suggests that derived NEOAEs do not display the highly synchronized dominant frequencies often seen in TEOAEs. This has been confirmed by examining the derived frequency responses for the two types of excitation. Conventional TEOAEs thus appear to measure a combination of two conceptually different processes, while NEOAEs measure just one.

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Published date: 2005
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Local EPrints ID: 28269
URI: http://eprints.soton.ac.uk/id/eprint/28269
DOI: doi:10.1121/1.1893285
ISSN: 0001-4966
PURE UUID: 0d4a39ae-9a73-4d83-a24e-9f9b97db199a

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Date deposited: 28 Apr 2006
Last modified: 15 Mar 2024 07:23

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Author: James M. Harte
Author: Stephen J. Elliott

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