Speech quality evaluation of a sparse coding shrinkage noise reduction algorithm with normal hearing and hearing impaired listeners
Speech quality evaluation of a sparse coding shrinkage noise reduction algorithm with normal hearing and hearing impaired listeners
Although there are numerous papers describing single-channel noise reduction strategies to improve speech perception in a noisy environment, few studies have comprehensively evaluated the effects of noise reduction algorithms on speech quality for hearing impaired (HI). A model-based sparse coding shrinkage (SCS) algorithm has been developed, and has shown previously (Sang et al., 2014) that it is as competitive as a state-of-the-art Wiener filter approach in speech intelligibility. Here, the analysis is extended to include subjective quality ratings and a method called Interpolated Paired Comparison Rating (IPCR) is adopted to quantitatively link the benefit of speech intelligibility and speech quality.
The subjective quality tests are performed through IPCR to efficiently quantify noise reduction effects on speech quality. Objective measures including frequency-weighted segmental signal-to-noise ratio (fwsegSNR), perceptual evaluation of speech quality (PESQ) and hearing aid speech quality index (HASQI) are adopted to predict the noise reduction effects.
Results show little difference in speech quality between the SCS and the Wiener filter algorithm but a difference in quality rating between the HI and NH listeners. HI listeners generally gave better quality ratings of noise reduction algorithms than NH listeners. However, SCS reduced the noise more efficiently at the cost of higher distortions that were detected by NH but not by the HI.
SCS is a promising candidate for noise reduction algorithms for HI. In general, care needs to be taken when adopting algorithms that were originally developed for NH participants into hearing aid applications. An algorithm that is evaluated negatively with NH might still bring benefits for HI participants
Sparse coding shrinkage, Normal hearing, Hearing impairment, Noise reduction, Interpolated paired comparison rating, Speech quality
175-185
Sang, Jinqiu
c61f2fc8-ead4-4976-94d4-676fa83564b7
Hu, Hongmei
619a5602-4865-4100-9be9-f31572a0953d
Zheng, Chengshi
53d6d95e-b6ec-4666-adcf-66e41386bffb
Li, Guoping
b791b5c0-52cb-4311-b0de-3d6b2f289835
Bleeck, Stefan
c888ccba-e64c-47bf-b8fa-a687e87ec16c
September 2015
Sang, Jinqiu
c61f2fc8-ead4-4976-94d4-676fa83564b7
Hu, Hongmei
619a5602-4865-4100-9be9-f31572a0953d
Zheng, Chengshi
53d6d95e-b6ec-4666-adcf-66e41386bffb
Li, Guoping
b791b5c0-52cb-4311-b0de-3d6b2f289835
Bleeck, Stefan
c888ccba-e64c-47bf-b8fa-a687e87ec16c
Sang, Jinqiu, Hu, Hongmei, Zheng, Chengshi, Li, Guoping, Lutman, Mark E. and Bleeck, Stefan
(2015)
Speech quality evaluation of a sparse coding shrinkage noise reduction algorithm with normal hearing and hearing impaired listeners.
Hearing Research, 327, .
(doi:10.1016/j.heares.2015.07.019).
Abstract
Although there are numerous papers describing single-channel noise reduction strategies to improve speech perception in a noisy environment, few studies have comprehensively evaluated the effects of noise reduction algorithms on speech quality for hearing impaired (HI). A model-based sparse coding shrinkage (SCS) algorithm has been developed, and has shown previously (Sang et al., 2014) that it is as competitive as a state-of-the-art Wiener filter approach in speech intelligibility. Here, the analysis is extended to include subjective quality ratings and a method called Interpolated Paired Comparison Rating (IPCR) is adopted to quantitatively link the benefit of speech intelligibility and speech quality.
The subjective quality tests are performed through IPCR to efficiently quantify noise reduction effects on speech quality. Objective measures including frequency-weighted segmental signal-to-noise ratio (fwsegSNR), perceptual evaluation of speech quality (PESQ) and hearing aid speech quality index (HASQI) are adopted to predict the noise reduction effects.
Results show little difference in speech quality between the SCS and the Wiener filter algorithm but a difference in quality rating between the HI and NH listeners. HI listeners generally gave better quality ratings of noise reduction algorithms than NH listeners. However, SCS reduced the noise more efficiently at the cost of higher distortions that were detected by NH but not by the HI.
SCS is a promising candidate for noise reduction algorithms for HI. In general, care needs to be taken when adopting algorithms that were originally developed for NH participants into hearing aid applications. An algorithm that is evaluated negatively with NH might still bring benefits for HI participants
Text
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- Accepted Manuscript
More information
Accepted/In Press date: 23 July 2015
Published date: September 2015
Keywords:
Sparse coding shrinkage, Normal hearing, Hearing impairment, Noise reduction, Interpolated paired comparison rating, Speech quality
Organisations:
Human Sciences Group
Identifiers
Local EPrints ID: 380847
URI: http://eprints.soton.ac.uk/id/eprint/380847
ISSN: 0378-5955
PURE UUID: bf8d0231-07b3-4f11-a8eb-43782ecfa3db
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Date deposited: 21 Sep 2015 09:10
Last modified: 15 Mar 2024 03:25
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Contributors
Author:
Jinqiu Sang
Author:
Hongmei Hu
Author:
Chengshi Zheng
Author:
Guoping Li
Author:
Mark E. Lutman
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