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Improved tactile speech perception and noise robustness using audio-to-tactile sensory substitution with amplitude envelope expansion

Improved tactile speech perception and noise robustness using audio-to-tactile sensory substitution with amplitude envelope expansion
Improved tactile speech perception and noise robustness using audio-to-tactile sensory substitution with amplitude envelope expansion

Recent advances in haptic technology could allow haptic hearing aids, which convert audio to tactile stimulation, to become viable for supporting people with hearing loss. A tactile vocoder strategy for audio-to-tactile conversion, which exploits these advances, has recently shown significant promise. In this strategy, the amplitude envelope is extracted from several audio frequency bands and used to modulate the amplitude of a set of vibro-tactile tones. The vocoder strategy allows good consonant discrimination, but vowel discrimination is poor and the strategy is susceptible to background noise. In the current study, we assessed whether multi-band amplitude envelope expansion can effectively enhance critical vowel features, such as formants, and improve speech extraction from noise. In 32 participants with normal touch perception, tactile-only phoneme discrimination with and without envelope expansion was assessed both in quiet and in background noise. Envelope expansion improved performance in quiet by 10.3% for vowels and by 5.9% for consonants. In noise, envelope expansion improved overall phoneme discrimination by 9.6%, with no difference in benefit between consonants and vowels. The tactile vocoder with envelope expansion can be deployed in real-time on a compact device and could substantially improve clinical outcomes for a new generation of haptic hearing aids.

Acoustic Stimulation/methods, Adult, Female, Hearing Aids, Hearing Loss/physiopathology, Humans, Male, Noise, Speech Perception/physiology, Touch Perception/physiology, Touch/physiology, Young Adult
2045-2322
15029
Fletcher, Mark D.
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Akis, Esma
317a18de-cdb6-4f0d-995f-7c2c85431127
Verschuur, Carl A.
5e15ee1c-3a44-4dbe-ad43-ec3b50111e41
Perry, Samuel W.
20d3988a-66fd-427c-b732-d686a67f4a8f
Fletcher, Mark D.
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Akis, Esma
317a18de-cdb6-4f0d-995f-7c2c85431127
Verschuur, Carl A.
5e15ee1c-3a44-4dbe-ad43-ec3b50111e41
Perry, Samuel W.
20d3988a-66fd-427c-b732-d686a67f4a8f

Fletcher, Mark D., Akis, Esma, Verschuur, Carl A. and Perry, Samuel W. (2024) Improved tactile speech perception and noise robustness using audio-to-tactile sensory substitution with amplitude envelope expansion. Scientific Reports, 14 (1), 15029, [15029]. (doi:10.1038/s41598-024-65510-6).

Record type: Article

Abstract

Recent advances in haptic technology could allow haptic hearing aids, which convert audio to tactile stimulation, to become viable for supporting people with hearing loss. A tactile vocoder strategy for audio-to-tactile conversion, which exploits these advances, has recently shown significant promise. In this strategy, the amplitude envelope is extracted from several audio frequency bands and used to modulate the amplitude of a set of vibro-tactile tones. The vocoder strategy allows good consonant discrimination, but vowel discrimination is poor and the strategy is susceptible to background noise. In the current study, we assessed whether multi-band amplitude envelope expansion can effectively enhance critical vowel features, such as formants, and improve speech extraction from noise. In 32 participants with normal touch perception, tactile-only phoneme discrimination with and without envelope expansion was assessed both in quiet and in background noise. Envelope expansion improved performance in quiet by 10.3% for vowels and by 5.9% for consonants. In noise, envelope expansion improved overall phoneme discrimination by 9.6%, with no difference in benefit between consonants and vowels. The tactile vocoder with envelope expansion can be deployed in real-time on a compact device and could substantially improve clinical outcomes for a new generation of haptic hearing aids.

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Accepted/In Press date: 20 June 2024
Published date: 1 July 2024
Additional Information: Publisher Copyright: © The Author(s) 2024.
Keywords: Acoustic Stimulation/methods, Adult, Female, Hearing Aids, Hearing Loss/physiopathology, Humans, Male, Noise, Speech Perception/physiology, Touch Perception/physiology, Touch/physiology, Young Adult

Identifiers

Local EPrints ID: 491682
URI: http://eprints.soton.ac.uk/id/eprint/491682
DOI: doi:10.1038/s41598-024-65510-6
ISSN: 2045-2322
PURE UUID: 7c1983f7-6c8e-4e9f-8f22-c600cd9ae6a8

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Date deposited: 03 Jul 2024 15:47
Last modified: 11 Jul 2024 04:58

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Contributors

Author: Mark D. Fletcher
Author: Esma Akis
Author: Carl A. Verschuur
Author: Samuel W. Perry

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