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Sensitivity to haptic sound-localization cues at different body locations

Sensitivity to haptic sound-localization cues at different body locations
Sensitivity to haptic sound-localization cues at different body locations
Cochlear implants (CIs) recover hearing in severely to profoundly hearing-impaired people by electrically stimulating the cochlea. While they are extremely effective, spatial hearing is typically severely limited. Recent studies have shown that haptic stimulation can supplement the electrical CI signal (electro-haptic stimulation) and substantially improve sound localization. In haptic sound-localization studies, the signal is extracted from the audio received by behind-the-ear devices and delivered to each wrist. Localization is achieved using tactile intensity differences (TIDs) across the wrists, which match sound intensity differences across the ears (a key sound localization cue). The current study established sensitivity to across-limb TIDs at three candidate locations for a wearable haptic device, namely: the lower tricep and the palmar and dorsal wrist. At all locations, TID sensitivity was similar to the sensitivity to across-ear intensity differences for normal-hearing listeners. This suggests that greater haptic sound-localization accuracy than previously shown can be achieved. The dynamic range was also measured and far exceeded that available through electrical CI stimulation for all of the locations, suggesting that haptic stimulation could provide additional sound-intensity information. These results indicate that an effective haptic aid could be deployed for any of the candidate locations, and could offer a low-cost, non-invasive means of improving outcomes for hearing-impaired listeners.
Cochlear implant, Cross-modal, Electro-haptic stimulation, Haptic sound-localization, Hearing aid, Hearing impaired, Neuroprosthetic, Somatosensory, Tactile, Vibrotactile
1424-8220
Fletcher, Mark
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Zgheib, Jana
3bdf6c36-e556-42b7-a329-a7532b1c727d
Perry, Samuel W
20d3988a-66fd-427c-b732-d686a67f4a8f
Fletcher, Mark
ac11588a-fafe-4dbb-8b3c-80a6ff030546
Zgheib, Jana
3bdf6c36-e556-42b7-a329-a7532b1c727d
Perry, Samuel W
20d3988a-66fd-427c-b732-d686a67f4a8f

Fletcher, Mark, Zgheib, Jana and Perry, Samuel W (2021) Sensitivity to haptic sound-localization cues at different body locations. Sensors, 21 (11), [3770]. (doi:10.3390/s21113770).

Record type: Article

Abstract

Cochlear implants (CIs) recover hearing in severely to profoundly hearing-impaired people by electrically stimulating the cochlea. While they are extremely effective, spatial hearing is typically severely limited. Recent studies have shown that haptic stimulation can supplement the electrical CI signal (electro-haptic stimulation) and substantially improve sound localization. In haptic sound-localization studies, the signal is extracted from the audio received by behind-the-ear devices and delivered to each wrist. Localization is achieved using tactile intensity differences (TIDs) across the wrists, which match sound intensity differences across the ears (a key sound localization cue). The current study established sensitivity to across-limb TIDs at three candidate locations for a wearable haptic device, namely: the lower tricep and the palmar and dorsal wrist. At all locations, TID sensitivity was similar to the sensitivity to across-ear intensity differences for normal-hearing listeners. This suggests that greater haptic sound-localization accuracy than previously shown can be achieved. The dynamic range was also measured and far exceeded that available through electrical CI stimulation for all of the locations, suggesting that haptic stimulation could provide additional sound-intensity information. These results indicate that an effective haptic aid could be deployed for any of the candidate locations, and could offer a low-cost, non-invasive means of improving outcomes for hearing-impaired listeners.

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sensors-21-03770-v2 - Version of Record
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Accepted/In Press date: 24 May 2021
e-pub ahead of print date: 28 May 2021
Published date: 28 May 2021
Additional Information: Funding Information: Funding: This research was funded by the William Demant Foundation, Oticon Medical, and the Engineering and Physical Sciences Research Council (grant number EP/N509747/1). The APC was funded by the Engineering and Physical Sciences Research Council. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
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Keywords: Cochlear implant, Cross-modal, Electro-haptic stimulation, Haptic sound-localization, Hearing aid, Hearing impaired, Neuroprosthetic, Somatosensory, Tactile, Vibrotactile

Identifiers

Local EPrints ID: 449464
URI: http://eprints.soton.ac.uk/id/eprint/449464
DOI: doi:10.3390/s21113770
ISSN: 1424-8220
PURE UUID: 491402e4-9240-4675-81a0-6aeb471ff9ca

Catalogue record

Date deposited: 02 Jun 2021 16:33
Last modified: 16 Mar 2024 12:26

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Contributors

Author: Mark Fletcher
Author: Jana Zgheib
Author: Samuel W Perry

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