Publication detail
Decomposition of Transient Signals in Cochlea - Problems of 2D Cochlea Model Development
DUŠEK, D. OUALI, B. PELLANT, K.
Czech title
Decomposition of Transient Signals in Cochlea - Problems of 2D Cochlea Model Development
English title
Decomposition of Transient Signals in Cochlea - Problems of 2D Cochlea Model Development
Type
conference proceedings
Language
sk
Original abstract
We have developed an 2D model of human cochlea that fulfills the conditions of cochley as frequency analyze. As a result of our mathematical modeling on 2D model the functioning of human cochlea as frequency analyzer was confirmed pursuant to the mechanical response from the stapes movements. The conformity with the results of Békésy experiments was achieved i.e. the position of maximal amplitude vibrations of basilar membrane was depending on frequency. We are continuing to test the model for more numerical experiments in order to simulate the function of coclea as the analyzer of transition signals. We believe our results demostrate the promise of large scale computational modelling approach to the study of ear mechanics
Czech abstract
We have developed an 2D model of human cochlea that fulfills the conditions of cochley as frequency analyze. As a result of our mathematical modeling on 2D model the functioning of human cochlea as frequency analyzer was confirmed pursuant to the mechanical response from the stapes movements. The conformity with the results of Békésy experiments was achieved i.e. the position of maximal amplitude vibrations of basilar membrane was depending on frequency. We are continuing to test the model for more numerical experiments in order to simulate the function of coclea as the analyzer of transition signals. We believe our results demostrate the promise of large scale computational modelling approach to the study of ear mechanics
English abstract
We have developed an 2D model of human cochlea that fulfills the conditions of cochley as frequency analyze. As a result of our mathematical modeling on 2D model the functioning of human cochlea as frequency analyzer was confirmed pursuant to the mechanical response from the stapes movements. The conformity with the results of Békésy experiments was achieved i.e. the position of maximal amplitude vibrations of basilar membrane was depending on frequency. We are continuing to test the model for more numerical experiments in order to simulate the function of coclea as the analyzer of transition signals. We believe our results demostrate the promise of large scale computational modelling approach to the study of ear mechanics
Keywords in Czech
acoustics, cochley, modelling, FEM, signal
Keywords in English
acoustics, cochley, modelling, FEM, signal
Released
01.06.2009
Publisher
STU Bratislava
ISBN
978-80-227-3093-8
Pages from–to
37–40
Pages count
4
BIBTEX
@proceedings{BUT65948,
author="Daniel {Dušek} and Bindioa Gilbert {Ouali} and Karel {Pellant},
title="Decomposition of Transient Signals in Cochlea – Problems of 2D Cochlea Model Development",
year="2009",
month="June",
pages="37--40",
publisher="STU Bratislava",
isbn="978-80-227-3093-8"
}