Description

This script computes the responses to one click of single polarity.

The following figures are obtained:

Fig. 1: Characteristic frequencies of equidistant points along the cochlea.

Fig. 2: Ear-canal pressure signals that can be used to simulate

otoacoustic emissions (see also demo_verhulst2012.m).

Fig. 3: Simulated basilar membrane velocity (v) or inner-hair-cell

voltage (vihc).

Fig. 4: Simulated unit responses to HSR, MSR, LSR neurons, auditory

nerve responses, and cochlear nucleus (CN) and inferior colliculus (IC) neurons.

Fig. 5: Population responses waave I, III, V, and envelope following

responses.

The current demo is based on the scripts ExampleSimulation.m and ExampleAnalysis_function.m from https://github.com/HearingTechnology/Verhulstetal2018Model

License:

This model is licensed under the UGent Academic License. Further usage details are provided in the UGent Academic License which can be found in the AMT directory "licences" and at <https://raw.githubusercontent.com/HearingTechnology/Verhulstetal2018Model/master/license.txt>.%

Characteristic frequencies of equidistant points along the cochlea.

Ear-canal pressure signals that can be used to simulate otoacoustic emissions.

Simulated basilar membrane velocity (v) or inner-hair-cell voltage (vihc).

Simulated unit responses to HSR, MSR, LSR neurons, auditory nerve responses, and cochlear nucleus (CN) and inferior colliculus (IC) neurons.

Population responses waave I, III, V, and envelope following responses.