Improved Speech Intelligibility with a Chimaera Hearing Aid Algorithm

Andrew Hines; Naomi Harte

doi:10.21427/pf42-h257

Improved Speech Intelligibility with a Chimaera Hearing Aid Algorithm

Andrew Hines, Naomi Harte

Technological University Dublin

Research output: Contribution to conference › Paper › peer-review

Abstract

It is recognised that current hearing aid fitting algorithms can corrupt fine timing cues in speech. This paper presents a fitting algorithm that aims to improve speech intelligibility, while preserving the temporal fine structure. The algorithm combines the signal envelope amplification from a standard hearing aid fitting algorithm with the fine timing information available to unaided listeners. The proposed “chimaera aid” is evaluated with computer simulated listener tests to measure its speech intelligibility for 3 sample hearing losses. In addition, the experiment demonstrates the potential application of auditory nerve models in the development of new hearing aid algorithm designs using the previously developed Neurogram Similarity Index Measure (NSIM) to predict speech intelligibility. The results predict that the new aid restores envelope without degrading fine timing information

Original language	English
DOIs	https://doi.org/10.21427/pf42-h257
Publication status	Published - 2012
Event	INTERSPEECH 2012 - Portland, United States Duration: 9 Sep 2012 → 13 Sep 2012

Conference

Conference	INTERSPEECH 2012
Country/Territory	United States
City	Portland
Period	9/09/12 → 13/09/12
Other	13th Annual Conference of the International Speech Communication Association 2012

Keywords

hearing aid
speech intelligibility
temporal fine structure
signal envelope amplification
auditory nerve models
Neurogram Similarity Index Measure
NSIM

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10.21427/pf42-h257Licence: CC BY-NC-SA

Cite this

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title = "Improved Speech Intelligibility with a Chimaera Hearing Aid Algorithm",

abstract = "It is recognised that current hearing aid fitting algorithms can corrupt fine timing cues in speech. This paper presents a fitting algorithm that aims to improve speech intelligibility, while preserving the temporal fine structure. The algorithm combines the signal envelope amplification from a standard hearing aid fitting algorithm with the fine timing information available to unaided listeners. The proposed “chimaera aid” is evaluated with computer simulated listener tests to measure its speech intelligibility for 3 sample hearing losses. In addition, the experiment demonstrates the potential application of auditory nerve models in the development of new hearing aid algorithm designs using the previously developed Neurogram Similarity Index Measure (NSIM) to predict speech intelligibility. The results predict that the new aid restores envelope without degrading fine timing information",

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AB - It is recognised that current hearing aid fitting algorithms can corrupt fine timing cues in speech. This paper presents a fitting algorithm that aims to improve speech intelligibility, while preserving the temporal fine structure. The algorithm combines the signal envelope amplification from a standard hearing aid fitting algorithm with the fine timing information available to unaided listeners. The proposed “chimaera aid” is evaluated with computer simulated listener tests to measure its speech intelligibility for 3 sample hearing losses. In addition, the experiment demonstrates the potential application of auditory nerve models in the development of new hearing aid algorithm designs using the previously developed Neurogram Similarity Index Measure (NSIM) to predict speech intelligibility. The results predict that the new aid restores envelope without degrading fine timing information

KW - hearing aid

KW - speech intelligibility

KW - temporal fine structure

KW - signal envelope amplification

KW - auditory nerve models

KW - Neurogram Similarity Index Measure

KW - NSIM

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M3 - Paper

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Y2 - 9 September 2012 through 13 September 2012

ER -

Improved Speech Intelligibility with a Chimaera Hearing Aid Algorithm

Abstract

Conference

Keywords

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