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http://hdl.handle.net/11375/16032
Title: | Modelling the Neural Representation of Interaural Level Differences for Linked and Unlinked Bilateral Hearing Aids |
Authors: | Cheung, Stephanie |
Advisor: | Bruce, Ian C. |
Department: | Electrical and Computer Engineering |
Keywords: | hearing aids; neural modelling; computer model; hearing; lateral superior olive; LSO; inferior colliculus; IC; hearing impairment; hard of hearing; sound localization; wireless dynamic range compression; WDRC; linked WDRC; synchronized WDRC; bilateral; binaural; interaural level difference; interaural intensity difference; ILD; IID; biophysical model; phenomenological model; Hodgkin-Huxley |
Publication Date: | Nov-2014 |
Abstract: | Sound localization is a vital aspect of hearing for safe navigation of everyday environments. It is also an important factor in speech intelligibility. This ability is facilitated by the interaural level difference (ILD) cue, which arises from binaural hearing: a sound will be more intense at the nearer ear than the farther. In a hearing-impaired listener, this binaural cue may not be available for use and localization may be diminished. While conventional, bilateral, wide dynamic range compression (WDRC) hearing aids distort the interaural level difference by independently altering sound intensities in each ear, wirelessly-linked devices have been suggested to benefit this task by matching amplification in order to preserve ILD. However, this technology has been shown to have varying degrees of success in aiding speech intelligibility and sound localization. As hearing impairment has wide-ranging adverse impacts to physical and mental health, social activity, and cognition, the task of localization improvement must be urgently addressed. Toward this end, neural modelling techniques are used to determine neural representations of ILD cues for linked and unlinked bilateral WDRC hearing aids. Findings suggest that wirelessly-linked WDRC is preferable over unlinked hearing aids or unaided, hearing-impaired listening, although parameters for optimal benefit are dependent on sound level, frequency content, and preceding sounds. |
URI: | http://hdl.handle.net/11375/16032 |
Appears in Collections: | Open Access Dissertations and Theses |
Files in This Item:
File | Description | Size | Format | |
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Cheung_Stephanie_T_finalsubmission201409_MASc.pdf | Thesis | 1.82 MB | Adobe PDF | View/Open |
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