Comparing methods of modeling near field fluid coupling in the cochlea
Comparing methods of modeling near field fluid coupling in the cochlea
As well as generating the far field pressure, which allows wave propagation in the cochlea, the vibration of an individual element of the basilar membrane (BM) will also generate a near field pressure, which increases its mass and gives rise to local longitudinal coupling. This paper compares the efficiency and accuracy of a number of different methods of calculating the near field pressure distribution, and explores the connections between them. In particular it is shown that a common approximation to the wavenumber description of the near field pressure is equivalent, in the spatial domain, to an exponential decay away from the point of excitation. Two important properties of the near field pressure are its maximum amplitude, which is finite if the vibrating element has a finite length, and the value of its spatial integral, which determines the added mass on the BM due to the fluid loading. These properties are calculated as a function of the BM width relative to the width of the fluid chamber. By parameterizing the near field pressure variation in this way, it can be readily incorporated into coupled models of the cochlea, without the considerable computational expense of calculating the full three dimensional pressure field.
1309-1317
Ni, Guangjian
f6ddc112-7d81-403a-b97a-7ecbc8fd4e59
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
1 March 2015
Ni, Guangjian
f6ddc112-7d81-403a-b97a-7ecbc8fd4e59
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Ni, Guangjian and Elliott, S.J.
(2015)
Comparing methods of modeling near field fluid coupling in the cochlea.
Journal of the Acoustical Society of America, 137 (3), .
(doi:10.1121/1.4908242).
Abstract
As well as generating the far field pressure, which allows wave propagation in the cochlea, the vibration of an individual element of the basilar membrane (BM) will also generate a near field pressure, which increases its mass and gives rise to local longitudinal coupling. This paper compares the efficiency and accuracy of a number of different methods of calculating the near field pressure distribution, and explores the connections between them. In particular it is shown that a common approximation to the wavenumber description of the near field pressure is equivalent, in the spatial domain, to an exponential decay away from the point of excitation. Two important properties of the near field pressure are its maximum amplitude, which is finite if the vibrating element has a finite length, and the value of its spatial integral, which determines the added mass on the BM due to the fluid loading. These properties are calculated as a function of the BM width relative to the width of the fluid chamber. By parameterizing the near field pressure variation in this way, it can be readily incorporated into coupled models of the cochlea, without the considerable computational expense of calculating the full three dimensional pressure field.
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Accepted/In Press date: 3 February 2015
Published date: 1 March 2015
Organisations:
Signal Processing & Control Grp
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Local EPrints ID: 375258
URI: http://eprints.soton.ac.uk/id/eprint/375258
ISSN: 0001-4966
PURE UUID: be79f864-6eec-4c31-a10e-08bd19bce70a
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Date deposited: 18 Mar 2015 12:59
Last modified: 14 Mar 2024 19:22
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Author:
Guangjian Ni
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