Vibratory Response of Dry Human Skulls

Vibratory Response of Dry Human Skulls

Hearing loss effects millions of people of all ages and is commonly treated with hearing aids and prostheses. Bone anchored hearing prostheses use bone conduction to transmit sound through the skull bone to the functioning inner ear and cochlea, bypassing the outer and middle ear. A challenge associ...

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Bibliographic Details
Main Author: McKnight, Carmen L.
Language:en
Published: 2012
Subjects:
Biomedical Engineering
Acoustics
Mechanical Engineering
Online Access:http://hdl.handle.net/10222/14618
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-NSHD.ca#10222-146182013-10-04T04:13:10ZVibratory Response of Dry Human SkullsMcKnight, Carmen L.Biomedical EngineeringAcousticsMechanical EngineeringHearing loss effects millions of people of all ages and is commonly treated with hearing aids and prostheses. Bone anchored hearing prostheses use bone conduction to transmit sound through the skull bone to the functioning inner ear and cochlea, bypassing the outer and middle ear. A challenge associated with these prostheses is optimizing the location of the surgical implant. A better understanding of how vibrations travel through the skull bone will be beneficial in the improvement of current prostheses and the development of new bone conduction technologies. Using laser Doppler vibrometry, vibration characteristics of dry human skulls were investigated. Three-dimensional vibration patterns were obtained at several frequencies and the dispersion relationship was determined. A closed-spherical shell model proved to be a good indicator of the frequency response of a dry human skull in the frequency range of normal human hearing.2012-04-09T17:32:09Z2012-04-09T17:32:09Z2012-04-092012-03-22http://hdl.handle.net/10222/14618en
collection NDLTD
language en
sources NDLTD
topic Biomedical Engineering
Acoustics
Mechanical Engineering
spellingShingle Biomedical Engineering
Acoustics
Mechanical Engineering
McKnight, Carmen L.
Vibratory Response of Dry Human Skulls
description Hearing loss effects millions of people of all ages and is commonly treated with hearing aids and prostheses. Bone anchored hearing prostheses use bone conduction to transmit sound through the skull bone to the functioning inner ear and cochlea, bypassing the outer and middle ear. A challenge associated with these prostheses is optimizing the location of the surgical implant. A better understanding of how vibrations travel through the skull bone will be beneficial in the improvement of current prostheses and the development of new bone conduction technologies. Using laser Doppler vibrometry, vibration characteristics of dry human skulls were investigated. Three-dimensional vibration patterns were obtained at several frequencies and the dispersion relationship was determined. A closed-spherical shell model proved to be a good indicator of the frequency response of a dry human skull in the frequency range of normal human hearing.
author McKnight, Carmen L.
author_facet McKnight, Carmen L.
author_sort McKnight, Carmen L.
title Vibratory Response of Dry Human Skulls
title_short Vibratory Response of Dry Human Skulls
title_full Vibratory Response of Dry Human Skulls
title_fullStr Vibratory Response of Dry Human Skulls
title_full_unstemmed Vibratory Response of Dry Human Skulls
title_sort vibratory response of dry human skulls
publishDate 2012
url http://hdl.handle.net/10222/14618
work_keys_str_mv AT mcknightcarmenl vibratoryresponseofdryhumanskulls
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