Speech enhancement for hearing-impaired listeners using deep neural networks with auditory-model based features
Speech enhancement for hearing-impaired listeners using deep neural networks with auditory-model based features
Speech understanding in adverse acoustic environments is still a major problem for users of hearing-instruments. Recent studies on supervised speech segregation show good promise to alleviate this problem by separating speech-dominated from noise-dominated spectro-temporal regions with estimated time-frequency masks. The current study compared a previously proposed feature set to a novel auditory-model based feature set using a common deep neural network based speech enhancement framework. The performance of both feature extraction methods was evaluated with objective measurements and a subjective listening test to measure speech perception scores in terms of intelligibility and quality with 17 hearing-impaired listeners. Significant improvements in speech intelligibility and quality ratings were found for both feature extraction systems. However, the auditory-model based feature set showed superior performance compared to the comparison feature set indicating that auditory-model based processing could provide further improvements for supervised speech segregation systems and their potential applications in hearing instruments.
hearing aids, speech enhancement, deep neural networks, auditory models
2300-2304
Goehring, Tobias
11007d58-6905-451e-aa60-1e1ea681f15a
Yang, Xin
0b71c34f-8f35-4760-85f9-9ac26002cfed
Monaghan, Jessica J M
c6e0821f-a660-4f07-85ac-66033f0e0b44
Bleeck, Stefan
c888ccba-e64c-47bf-b8fa-a687e87ec16c
2016
Goehring, Tobias
11007d58-6905-451e-aa60-1e1ea681f15a
Yang, Xin
0b71c34f-8f35-4760-85f9-9ac26002cfed
Monaghan, Jessica J M
c6e0821f-a660-4f07-85ac-66033f0e0b44
Bleeck, Stefan
c888ccba-e64c-47bf-b8fa-a687e87ec16c
Goehring, Tobias, Yang, Xin, Monaghan, Jessica J M and Bleeck, Stefan
(2016)
Speech enhancement for hearing-impaired listeners using deep neural networks with auditory-model based features.
24th European Signal Processing Conference (EUSIPCO2016), Budapest, Hungary.
29 Aug - 02 Sep 2016.
.
(doi:10.1109/EUSIPCO.2016.7760659).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Speech understanding in adverse acoustic environments is still a major problem for users of hearing-instruments. Recent studies on supervised speech segregation show good promise to alleviate this problem by separating speech-dominated from noise-dominated spectro-temporal regions with estimated time-frequency masks. The current study compared a previously proposed feature set to a novel auditory-model based feature set using a common deep neural network based speech enhancement framework. The performance of both feature extraction methods was evaluated with objective measurements and a subjective listening test to measure speech perception scores in terms of intelligibility and quality with 17 hearing-impaired listeners. Significant improvements in speech intelligibility and quality ratings were found for both feature extraction systems. However, the auditory-model based feature set showed superior performance compared to the comparison feature set indicating that auditory-model based processing could provide further improvements for supervised speech segregation systems and their potential applications in hearing instruments.
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Accepted/In Press date: 25 May 2016
e-pub ahead of print date: 1 December 2016
Published date: 2016
Venue - Dates:
24th European Signal Processing Conference (EUSIPCO2016), Budapest, Hungary, 2016-08-29 - 2016-09-02
Keywords:
hearing aids, speech enhancement, deep neural networks, auditory models
Organisations:
Human Sciences Group
Identifiers
Local EPrints ID: 403271
URI: http://eprints.soton.ac.uk/id/eprint/403271
PURE UUID: ab21665d-6edf-4b0b-b0bc-48bc21a436a8
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Date deposited: 29 Nov 2016 14:11
Last modified: 16 Mar 2024 03:49
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Contributors
Author:
Tobias Goehring
Author:
Xin Yang
Author:
Jessica J M Monaghan
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