THE AUDITORY MODELING TOOLBOX

Applies to version: 1.1.0

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CHEN2011 - Fast excitation pattern estimation

Usage

[Ldn,E,Cam,CF] = chen2011(inputF,inputLdB)

Input parameters

inputF vector of input frequency values
inputLdB vector of input level

Output parameters

Ldn loudness
E excitation at the output of the passive filter
Cam ERB-number in Cams (Glasberg and Moore, 1990; Moore, 2003)
CF center frequency of auditory filters

Description

Optional key value pairs:

'HLcf',HLcf parameters to simulate hearing loss - audiogram frequencies
'HLohcdB0',HLohcdB0 parameters to simulate hearing loss - OHC loss at audiogram frequencies
'HLihcdB0',HLihcdB0 parameters to simulate hearing loss - IHC loss at audiogram frequencies
'cambin',cambin spacing [ERB] between successive auditory filter CFs
'flow',flow lowest center frequency of an auditory filter
'fhigh',fhigh highest center frequency of an auditory filter

Optional flags:

'outerearcorrection' outer ear correction ('FreeField= 'PDR10', 'Eardrum')'

References:

Z. Chen, G. Hu, B. R. Glasberg, and C. Moore, Brian. A new model for calculating auditory excitation patterns and loudness for cases of cochlear hearing loss. J. Acoust. Soc. Am., 282(1), 2011. [ www: ]

B. R. Glasberg and B. C. J. Moore. A Model of Loudness Applicable to Time-Varying Sounds. J. Audio Eng. Soc, 50(5):331--342, 2002. [ http ]

B. C. J. Moore, B. R. Glasberg, and T. Baer. A Model for the Prediction of Thresholds, Loudness, and Partial Loudness. J. Audio Eng. Soc, 45(4):224--240, 1997. [ http ]