THE AUDITORY MODELING TOOLBOX

Applies to version: 1.5.0

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PAUSCH2022 - ITD prediction in the horizontal plane for listeners with hearing aids

Usage:

[itd, itd_max, itd_arg_max_phi, coef, fig] = pausch2022(feat_xd, varargin)
[itd, itd_max, itd_arg_max_phi, coef, fig] = pausch2022(feat_x, varargin)

Input parameters:

feat_xd Default. Vector containing the features head width x1, head height x2, head depth x3, HA-microphone offset up d13, and HA-microphone offset back d14, (all in mm) in the form [x1, x2, x3, d13, d14]. This input can only be used when 'hartf_front' or 'hartf_rear' is specified.
feat_xd Vector containing the features head width x1, head height x2, head depth x3, pinna offset down x4, and pinna offset back x5, (all in mm) in the form [x1, x2, x3, x4, x5]. This input can only be used when 'hrtf' is specified.

Output parameters:

itd Predicted ITDs (in s) per STFs and model.
itd_max Maximum of the ITD (in s).
itd_arg_max_phi Argument of the interaural-time-difference maximum (in s).
coef Model coefficients as estimated after applying the polynomial regression weights to the subset of individual features.
fig Figure handle.

Description:

pausch2022() contains a hybrid model to predict the interaural time differences (ITDs) in the horizontal plane based on spatial transfer function (STFs), which can be for normal-hearing subjects the head-related transfer functions (HRTFs), or for hearing-impaired subject fitted with behind-the-ear hearing aids the hearing-aid-related transfer functions (HARTFs).

It also implements three analytical ITD models: Kuhn (1977), Woodworth and Schlosberg (1954), and Aaronson and Hartmann (2014). The ITD predictions in all models are based on invividual anthropometric features or features describing the individual placement of the HAs.

The following ITD models can be selected for the ITD predictions:

'pausch2022' Default. Hybrid ITD model by Pausch et al. (2022).
'kuhn1977' Analytic ITD model by Kuhn (1977).
'woodworth1954' Analytic ITD model by Woodworth and Schlosberg (1954).
'aaronson2014' Analytic ITD model by Woodworth and Schlosberg (1954) extended by Aaronson and Hartmann (2014) (far-field assumption). Note that for this model, if 'hartf_front' or 'hartf_rear specified the features x5, d9, d10, and Theta3 have to be provided.

The following spatial transfer functions (STFs) can be used specified:

'hartf_front' Default. Load invidual front HARTF datasets. Can not be used together with 'hartf_rear' and 'hrtf'.
'hartf_rear' Load invidual rear HARTF datasets. Can not be used together with 'hartf_front' and 'hrtf'.
'hrtf' Load individual HRTF datasets. Can not be used together with 'hartf_front' and 'hartf_rear'.
'no_plot' Default. Do no plot.
'plot' Plot predicted ITDs over azi_min:azi_res:azi_max

Additional key/value pairs include:

'd9' HA-microphones-to-ear-canal offset (in mm). Default is empty.
'd10' HA-microphones-to-scalp offset (in mm). Default is empty.
'Theta3' Frontal HA-microphones angle (in deg). Default is empty.
'azi_min' Minimum evaluation angle of azimuth range (in deg). Default: 0 deg.
'azi_max' Maximum evaluation angle of azimuth range (in deg). Default: 180 deg.
'azi_res' Angular resolution of the evaluated azimuth range (in deg). Default: 2.5 deg.
'c' Speed of sound (in m/s). Default: 343 m/s.

References:

F. Pausch, S. Doma, and J. Fels. Hybrid multi-harmonic model for the prediction of interaural time differences in individual behind-the-ear hearing-aid-related transfer functions. Acta Acust., 6:34, 2022. [ DOI | http ]

G. F. Kuhn. Model for the interaural time differences in the azimuthal plane. The Journal of the Acoustical Society of America, 62(1):157--167, 1977. [ DOI | arXiv | http ]

R. S. Woodworth and H. Schlosberg. Experimental psychology, Rev. ed. Holt, Oxford, England, 1954.

N. L. Aaronson and W. M. Hartmann. Testing, correcting, and extending the Woodworth model for interaural time difference. The Journal of the Acoustical Society of America, 135(2):817--823, 2014. [ DOI | arXiv | http ]