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Vibro-tactile enhancement of speech intelligibility in multi-talker noise for simulated cochlear implant listening

Vibro-tactile enhancement of speech intelligibility in multi-talker noise for simulated cochlear implant listening
Vibro-tactile enhancement of speech intelligibility in multi-talker noise for simulated cochlear implant listening
Many cochlear implant (CI) users achieve excellent speech understanding in acoustically quiet conditions, but most perform poorly in the presence of background noise. An important contributor to this poor speech-in-noise performance is the limited transmission of low-frequency sound information through CIs. Recent work has suggested that tactile presentation of this low-frequency sound information could be used to improve speech-in-noise performance for CI users. Building on this work, we investigated whether vibro-tactile stimulation can improve speech intelligibility in multi-talker noise. The signal used for tactile stimulation was derived from the speech-in-noise using a computationally inexpensive algorithm. Eight normal-hearing participants listened to CI simulated speech-in-noise both with and without concurrent tactile stimulation of their fingertip. Participants' speech recognition performance was assessed before and after a training regime, which took place over three consecutive days and totaled around 30 minutes of exposure to CI simulated speech-in-noise with concurrent tactile stimulation. Tactile stimulation was found to improve the intelligibility of speech in multi-talker noise and this improvement was found to increase in size after training. Presentation of such tactile stimulation could be achieved by a compact, portable device and offer an inexpensive and non-invasive means for improving speech-in-noise performance in CI users.
2331-2165
Fletcher, Mark
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Mills, Sean R.
7d497d49-f9bb-422e-b283-dce2a84de5fb
Goehring, Tobias
15493ba1-9fe3-4aad-a964-29e1adb3c35a
Fletcher, Mark
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Mills, Sean R.
7d497d49-f9bb-422e-b283-dce2a84de5fb
Goehring, Tobias
15493ba1-9fe3-4aad-a964-29e1adb3c35a

Fletcher, Mark, Mills, Sean R. and Goehring, Tobias (2018) Vibro-tactile enhancement of speech intelligibility in multi-talker noise for simulated cochlear implant listening. Trends in Hearing, 22. (doi:10.1177/2331216518797838).

Record type: Article

Abstract

Many cochlear implant (CI) users achieve excellent speech understanding in acoustically quiet conditions, but most perform poorly in the presence of background noise. An important contributor to this poor speech-in-noise performance is the limited transmission of low-frequency sound information through CIs. Recent work has suggested that tactile presentation of this low-frequency sound information could be used to improve speech-in-noise performance for CI users. Building on this work, we investigated whether vibro-tactile stimulation can improve speech intelligibility in multi-talker noise. The signal used for tactile stimulation was derived from the speech-in-noise using a computationally inexpensive algorithm. Eight normal-hearing participants listened to CI simulated speech-in-noise both with and without concurrent tactile stimulation of their fingertip. Participants' speech recognition performance was assessed before and after a training regime, which took place over three consecutive days and totaled around 30 minutes of exposure to CI simulated speech-in-noise with concurrent tactile stimulation. Tactile stimulation was found to improve the intelligibility of speech in multi-talker noise and this improvement was found to increase in size after training. Presentation of such tactile stimulation could be achieved by a compact, portable device and offer an inexpensive and non-invasive means for improving speech-in-noise performance in CI users.

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More information

Accepted/In Press date: 7 August 2018
e-pub ahead of print date: 16 September 2018

Identifiers

Local EPrints ID: 423062
URI: http://eprints.soton.ac.uk/id/eprint/423062
DOI: doi:10.1177/2331216518797838
ISSN: 2331-2165
PURE UUID: f4857b17-9c5b-49ef-83a2-49112cd0a215
ORCID for Sean R. Mills: ORCID iD orcid.org/0000-0001-7866-7225

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Date deposited: 13 Aug 2018 16:30
Last modified: 16 Mar 2024 06:58

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Author: Mark Fletcher
Author: Sean R. Mills ORCID iD
Author: Tobias Goehring

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