Journal of Applied Bioinformatics & Computational BiologyISSN: 2329-9533

Reach Us +1 850 754 6199

Research Article, J Appl Bioinform Comput Biol Vol: 0 Issue: 0

Acoustic-Wave Hearing Model, The Initial Stage-C:Hydroacoustics of the Inner Ear (Sound Field Formation in the Cochlea)

Ovchinnikov EL*
Department ofMedical and Biological Physics,The Problem Laboratory of the Hearing and Equilibrium,Samara State Medical University, Samara, Russia
Corresponding author : Ovchinnikov EL
Department ofMedical and Biological Physics,The Problem Laboratory of the Hearing and Equilibrium,Samara State Medical University, Samara, Russia
Tel: +7 846 334-54-02
E-mail: [email protected]
Received: March 01, 2014 Accepted: November 10, 2014 Published: November 17, 2014
Citation: Ovchinnikov EL (2014) Acoustic-Wave Hearing Model, The Initial Stage-C: Hydroacoustics of the Inner Ear (Sound Field Formation in the Cochlea). J Appl Bioinform Comput Biol 3:2. doi:10.4172/2329-9533.1000112

Abstract

Acoustic-Wave Hearing Model, The Initial Stage-C: Hydroacoustics of the Inner Ear (Sound Field Formation in the Cochlea)

The auditory effect (hearing) is determined by the information coming into the brain from the peripheral part of the auditory analyzer. The signals (nerve impulses) are triggered by the receptors of Corti organ-hair cells .Being secondary structures the receptors themselves create the generator potential due to their interaction with the tectorial membrane and being distant they take sound energy in the cochlea experiencing multiple conversions. The article analyzes theformation ofthe sound fieldon the initial stage(in perilymphaticand the middlescaleof cochlea.

Keywords: Acoustic-wave hearing model; Inner ear; Hydroacoustics; Theoretical foundation; Auditory receptors distribution by frequencies

Track Your Manuscript

Share This Page