Optimizing the Diagnostic Power of Otoacoustic Emissions Using Theoretical Cochlear Mechanics
Series: Springer-AAS Acoustics Series;
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Product details:
- Publisher Springer
- Date of Publication 15 July 2025
- Number of Volumes 1 pieces, Book
- ISBN 9783031905131
- Binding Hardback
- No. of pages175 pages
- Size 235x155 mm
- Language English
- Illustrations 16 Illustrations, black & white; 18 Illustrations, color 700
Categories
Short description:
This book examines the diagnostic usefulness of otoacoustic emissions (OAEs) in the context of theoretical cochlear mechanics. OAEs have proven to be immensely useful for diagnostic purposes. The phenomenology of hearing physiology, and OAEs in particular, is briefly summarized, providing the necessary references to the literature. State-of-the-art linear and nonlinear mathematical models of the cochlea are discussed, using fundamental concepts of fluid dynamics and mechanics of vibrating systems, often exploiting the formal analogy between mechanical and electric linear systems. In particular, it is explained how the theoretical predictions about the OAE level, phase, and nonlinear I/O functions allow one to design advanced acquisition and analysis tools that significantly improve the specificity and sensitivity of OAEs to hearing dysfunction and other important physiological effects. Examples of diagnostic applications of OAEs in audiology, neurology, and space physiology are discussed, with all of the information needed to develop an OAE experiment provided, from instrument and acquisition setup to signal analysis and theoretical interpretation. The book is targeted at graduate students and researchers in hearing science with at least a basic knowledge of classical physics, calculus, Fourier analysis and signal analysis.
Long description:
This book examines the diagnostic usefulness of otoacoustic emissions (OAEs) in the context of theoretical cochlear mechanics. OAEs have proven to be immensely useful for diagnostic purposes. The phenomenology of hearing physiology, and OAEs in particular, is briefly summarized, providing the necessary references to the literature. State-of-the-art linear and nonlinear mathematical models of the cochlea are discussed, using fundamental concepts of fluid dynamics and mechanics of vibrating systems, often exploiting the formal analogy between mechanical and electric linear systems. In particular, it is explained how the theoretical predictions about the OAE level, phase, and nonlinear I/O functions allow one to design advanced acquisition and analysis tools that significantly improve the specificity and sensitivity of OAEs to hearing dysfunction and other important physiological effects. Examples of diagnostic applications of OAEs in audiology, neurology, and space physiology are discussed, with all of the information needed to develop an OAE experiment provided, from instrument and acquisition setup to signal analysis and theoretical interpretation. The book is targeted at graduate students and researchers in hearing science with at least a basic knowledge of classical physics, calculus, Fourier analysis and signal analysis.
MoreTable of Contents:
1 Hearing function and hearing physiology.- 2 Phenomenology of hearing.- 3 Mathematical models of the physiology of hearing.- 4 Generation of otoacoustic emissions.- 5 Measurement of otoacoustic emissions.- 6 Otoacoustic emission signal analysis.- 7 Diagnostic use of otoacoustic emissions.
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Optimizing the Diagnostic Power of Otoacoustic Emissions Using Theoretical Cochlear Mechanics
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