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Improved tactile speech robustness to background noise with a dual-path recurrent neural network noise-reduction method

Improved tactile speech robustness to background noise with a dual-path recurrent neural network noise-reduction method
Improved tactile speech robustness to background noise with a dual-path recurrent neural network noise-reduction method
Many people with hearing loss struggle to understand speech in noisy environments, making noise robustness critical for hearing-assistive devices. Recently developed haptic hearing aids, which convert audio to vibration, can improve speech-in-noise performance for cochlear implant (CI) users and assist those unable to access hearing-assistive devices. They are typically body-worn rather than head-mounted, allowing additional space for batteries and microprocessors, and so can deploy more sophisticated noise-reduction techniques. The current study assessed whether a real-time-feasible dual-path recurrent neural network (DPRNN) can improve tactile speech-in-noise performance. Audio was converted to vibration on the wrist using a vocoder method, either with or without noise reduction. Performance was tested for speech in a multi-talker noise (recorded at a party) with a 2.5-dB signal-to-noise ratio. An objective assessment showed the DPRNN improved the scale-invariant signal-to-distortion ratio by 8.6 dB and substantially outperformed traditional noise-reduction (log-MMSE). A behavioural assessment in 16 participants showed the DPRNN improved tactile-only sentence identification in noise by 8.2%. This suggests that advanced techniques like the DPRNN could substantially improve outcomes with haptic hearing aids. Low-cost haptic devices could soon be an important supplement to hearing-assistive devices such as CIs or offer an alternative for people who cannot access CI technology.
2045-2322
Fletcher, Mark D.
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Perry, Samuel W.
20d3988a-66fd-427c-b732-d686a67f4a8f
Thoidis, Iordanis
b34a768f-bb33-40ea-b538-1cffc052311e
Verschuur, Carl A.
5e15ee1c-3a44-4dbe-ad43-ec3b50111e41
Goehring, Tobias
15493ba1-9fe3-4aad-a964-29e1adb3c35a
Fletcher, Mark D.
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Perry, Samuel W.
20d3988a-66fd-427c-b732-d686a67f4a8f
Thoidis, Iordanis
b34a768f-bb33-40ea-b538-1cffc052311e
Verschuur, Carl A.
5e15ee1c-3a44-4dbe-ad43-ec3b50111e41
Goehring, Tobias
15493ba1-9fe3-4aad-a964-29e1adb3c35a

Fletcher, Mark D., Perry, Samuel W., Thoidis, Iordanis, Verschuur, Carl A. and Goehring, Tobias (2024) Improved tactile speech robustness to background noise with a dual-path recurrent neural network noise-reduction method. Scientific Reports, 14 (1), [7357]. (doi:10.1038/s41598-024-57312-7).

Record type: Article

Abstract

Many people with hearing loss struggle to understand speech in noisy environments, making noise robustness critical for hearing-assistive devices. Recently developed haptic hearing aids, which convert audio to vibration, can improve speech-in-noise performance for cochlear implant (CI) users and assist those unable to access hearing-assistive devices. They are typically body-worn rather than head-mounted, allowing additional space for batteries and microprocessors, and so can deploy more sophisticated noise-reduction techniques. The current study assessed whether a real-time-feasible dual-path recurrent neural network (DPRNN) can improve tactile speech-in-noise performance. Audio was converted to vibration on the wrist using a vocoder method, either with or without noise reduction. Performance was tested for speech in a multi-talker noise (recorded at a party) with a 2.5-dB signal-to-noise ratio. An objective assessment showed the DPRNN improved the scale-invariant signal-to-distortion ratio by 8.6 dB and substantially outperformed traditional noise-reduction (log-MMSE). A behavioural assessment in 16 participants showed the DPRNN improved tactile-only sentence identification in noise by 8.2%. This suggests that advanced techniques like the DPRNN could substantially improve outcomes with haptic hearing aids. Low-cost haptic devices could soon be an important supplement to hearing-assistive devices such as CIs or offer an alternative for people who cannot access CI technology.

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Accepted/In Press date: 17 March 2024
Published date: 28 March 2024
Additional Information: Publisher Copyright: © The Author(s) 2024.
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Identifiers

Local EPrints ID: 488359
URI: http://eprints.soton.ac.uk/id/eprint/488359
DOI: doi:10.1038/s41598-024-57312-7
ISSN: 2045-2322
PURE UUID: 30c7c2bc-7fa1-4d4e-9693-2ba253fbcb74

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Date deposited: 21 Mar 2024 17:30
Last modified: 03 May 2024 16:38

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Contributors

Author: Mark D. Fletcher
Author: Samuel W. Perry
Author: Iordanis Thoidis
Author: Carl A. Verschuur
Author: Tobias Goehring

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