5.00
Hdl Handle:
http://hdl.handle.net/10545/333590
Title:
Tissue-conducted spatial sound fields
Authors:
McKenzie, Ian ( 0000-0002-8991-1403 ) ; Lennox, Peter ( 0000-0003-3690-344X ) ; Wiggins, Bruce ( 0000-0002-7345-6098 )
Abstract:
We describe experiments using multiple cranial transducers to achieve auditory spatial perceptual impressions via bone (BC) and tissue conduction (TC), bypassing the peripheral hearing apparatus. This could be useful in cases of peripheral hearing damage or where ear-occlusion is undesirable. Previous work (e.g. Stanley and Walker 2006, MacDonald and Letowski 2006)1,2 indicated robust lateralization is feasible via tissue conduction. We have utilized discrete signals, stereo and first order ambisonics to investigate control of externalization, range, direction in azimuth and elevation, movement and spaciousness. Early results indicate robust and coherent effects. Current technological implementations are presented and potential development paths discussed.
Affiliation:
University of Derby
Citation:
References McKenzie, I., Lennox, P. and Wiggins, B. (2014). Tissue-conducted Spatial Sound fields. Proceedings of the Institute of Acoustics, 36(2).
Publisher:
Institute of Acoustics
Journal:
Proceedings of the Institute of Acoustics, Vol 36, Pt 2.
Issue Date:
14-Oct-2014
URI:
http://hdl.handle.net/10545/333590
Additional Links:
http://ioa.org.uk/
Type:
Research Report; Technical Report
Language:
en
Appears in Collections:
Creative Technologies Research Group

Full metadata record

DC FieldValue Language
dc.contributor.authorMcKenzie, Ianen
dc.contributor.authorLennox, Peteren
dc.contributor.authorWiggins, Bruceen
dc.date.accessioned2014-11-03T14:19:38Z-
dc.date.available2014-11-03T14:19:38Z-
dc.date.issued2014-10-14-
dc.identifier.citationReferences McKenzie, I., Lennox, P. and Wiggins, B. (2014). Tissue-conducted Spatial Sound fields. Proceedings of the Institute of Acoustics, 36(2).en
dc.identifier.urihttp://hdl.handle.net/10545/333590-
dc.description.abstractWe describe experiments using multiple cranial transducers to achieve auditory spatial perceptual impressions via bone (BC) and tissue conduction (TC), bypassing the peripheral hearing apparatus. This could be useful in cases of peripheral hearing damage or where ear-occlusion is undesirable. Previous work (e.g. Stanley and Walker 2006, MacDonald and Letowski 2006)1,2 indicated robust lateralization is feasible via tissue conduction. We have utilized discrete signals, stereo and first order ambisonics to investigate control of externalization, range, direction in azimuth and elevation, movement and spaciousness. Early results indicate robust and coherent effects. Current technological implementations are presented and potential development paths discussed.en
dc.language.isoenen
dc.publisherInstitute of Acousticsen
dc.relation.urlhttp://ioa.org.uk/en
dc.subjectBone conductionen
dc.subjectSurround sounden
dc.subjectAmbisonicsen
dc.subjectTissue conductionen
dc.subject3D sounden
dc.subjectBinauralen
dc.titleTissue-conducted spatial sound fieldsen
dc.typeResearch Reporten
dc.typeTechnical Reporten
dc.contributor.departmentUniversity of Derbyen
dc.identifier.journalProceedings of the Institute of Acoustics, Vol 36, Pt 2.en
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