A hardware cochlear nonlinear preprocessing model with active feedback
- 1 July 1986
- journal article
- research article
- Published by Acoustical Society of America (ASA) in The Journal of the Acoustical Society of America
- Vol. 80 (1) , 146-153
- https://doi.org/10.1121/1.394175
Abstract
A hardware model of the nonlinear preprocessing established in the inner ear consisting of 90 sections corresponding to a frequency range from 900 to 8000 Hz is described. The model is based on assumptions described by Zwicker [Biol. Cybern. 35, 243-250 (1979)]: The outer hair cells act as saturating nonlinear mechanical amplifiers which feed back to the vibration of the basilar membrane while only the inner hair cells transfer information towards higher centers. The model shows many effects which correlate very closely to physiological and phychoacoustical counterparts. Quantitative data on the level-dependence of frequency responses and phase responses as well as an example of suppression are outlined.This publication has 13 references indexed in Scilit:
- The modulation of the sensitivity of the mammalian cochlea by low frequency tones. II. Inner hair cell receptor potentialsHearing Research, 1984
- The modulation of the sensitivity of the mammalian cochlea by low frequency tones. I. Primary afferent activityHearing Research, 1984
- Delayed evoked oto-acoustic emissions and their suppression by Gaussian-shaped pressure impulsesHearing Research, 1983
- Spontaneous and impulsively evoked otoacoustic emission: indicators of cochlear pathology?Hearing Research, 1983
- An active cochlear model showing sharp tuning and high sensitivityHearing Research, 1983
- An active process in cochlear mechanicsHearing Research, 1983
- Spontaneous narrowband acoustic signals emitted by human earsThe Journal of the Acoustical Society of America, 1981
- A model describing nonlinearities in hearing by active processes with saturation at 40 dBBiological Cybernetics, 1979
- Stimulated acoustic emissions from within the human auditory systemThe Journal of the Acoustical Society of America, 1978
- A model for predicting masking-period patternsBiological Cybernetics, 1976