Auditory information processing with nerve-action potentials

Author

Holmberg, Marcus ; Hemmert, Werner

Author_Institution

Infineon Technol. Inc.,, Corporate Res. ST, Munich, Germany

Volume

4

fYear

2004

fDate

17-21 May 2004

Abstract

Neural sound processing requires compression of the huge dynamic range of acoustic signals to the limited dynamic range which can be coded by discrete action potentials. We present an inner ear model followed by a compression stage and a realistic sensory cell model. Frequency analysis is achieved using a wave-digital filter model of the inner ear´s hydrodynamics. The dynamic compression stage entails nonlinear and reasonably broad response curves. The model codes speech signals into trains of nerve-action potentials, which are fed into a network of neurons featuring spectral receptive fields with lateral inhibition. When their receptive field width is changed, these neurons code spectral aspects of sounds and they detect the formants in speech signals.

Keywords

acoustic signal processing; audio coding; auditory evoked potentials; ear; neural nets; physiological models; speech processing; wave digital filters; acoustic signal coding; acoustic signals; auditory information processing; compression stage; discrete action potentials; dynamic frequency range; frequency analysis; inner ear hydrodynamics; inner ear model; nerve-action potentials; neural sound processing; sensory cell model; spectral receptive fields; speech signal formant detection; wave-digital filter; Auditory system; Dynamic range; Ear; Filters; Frequency; Hydrodynamics; Information processing; Neurons; Q factor; Vibrations;

fLanguage

English

Publisher

ieee

Conference_Titel

Acoustics, Speech, and Signal Processing, 2004. Proceedings. (ICASSP '04). IEEE International Conference on

ISSN

1520-6149

Print_ISBN

0-7803-8484-9

Type

conf

DOI

10.1109/ICASSP.2004.1326796

Filename

1326796