Projects per year
Abstract
A synthesis is presented of two recent studies on modelling the nonlinear neuro-mechanical hearing processes in mosquitoes and in mammals. In each case, a hierarchy of models are considered in attempts to understand data that shows nonlinear amplification and compression of incoming sound signals. The insect's hearing is tuned to the vicinity of a single input frequency. Nonlinear response occurs via an arrangement of many dual capacity neuro-mechanical units called scolopidia within the Johnston's organ. It is shown how the observed data can be captured by a simple nonlinear oscillator model that is derived from homogenisation of a more complex model involving a radial array of scolopidia. The physiology of the mammalian cochlea is much more complex, with hearing occurring via a travelling wave along a tapered, compartmentalised tube. Waves travel a frequency-dependent distance along the tube, at which point they are amplified and `heard'. Local models are reviewed for the pickup mechanism, within the outer hair cells of the organ of Corti. The current debate in the literature is elucidated, on the relative importance to two possible nonlinear mechanisms; active hair bundles and somatic motility. However, it is shown that the best experimental agreement can be found when the nonlinear terms include longitudinal coupling, the physiological basis of which is described. A discussion section summarises the lessons learnt from both studies, and attempts to shed light on the more general question of what constitutes a good mathematical model of a complex physiological process.
Translated title of the contribution | The mechamics of hearing; a comparative case study in bio-mathematical modelling |
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Original language | English |
Pages (from-to) | 255 - 249 |
Journal | ANZIAM Journal |
Volume | 52 |
DOIs | |
Publication status | Published - 2011 |
Research Groups and Themes
- Engineering Mathematics Research Group
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- 1 Finished
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MATHEMATICAL MODELLING OF THE ACTIVE HEARING PROCESS IN THE MAMALIAN INNER EAR
Homer, M. E. (Principal Investigator)
1/09/08 → 1/09/11
Project: Research