[p,rang] = baumgartner2014( target,template ) [p,rang,tang] = baumgartner2014( target,template ) [p,rang,tang] = baumgartner2014( target,template, varargin ) [err,pred] = baumgartner2014( target,template,errorflag )
target | binaural impulse response(s) referring to the directional transfer function(s) (DFTs) of the target sound(s). Option 1: given in SOFA format -> sagittal plane DTFs will be extracted internally. Option 2: binaural impulse responses of all available listener-specific DTFs of the sagittal plane formatted according to the following matrix dimensions: time x direction x channel/ear |
template | binaural impulse responses of all available listener-specific DTFs of the sagittal plane referring to the perceived lateral angle of the target sound. Options 1 & 2 equivalent to target. |
p | predicted probability mass vectors for response angles with respect to target positions 1st dim: response angle 2nd dim: target angle |
rang | polar response angles (after regularization of angular sampling) |
tang | polar target angles (usefull if sagittal-plane HRTFs are extracted directly from SOFA object) |
err | predicted localization error (acc. to performance measure defined in errorflag |
pred | structure with fields p, rang, tang |
baumgartner2014(...) is a model for sound-source localization in sagittal planes (SPs). It bases on the comparison of internal sound representation with a template and results in a probabilistic prediction of polar angle response.
'fs',fs | Define the sampling rate of the impulse responses. Default value is 48000 Hz. |
'S',S | Set the listener-specific sensitivity threshold (threshold of the sigmoid link function representing the psychometric link between transformation from the distance metric and similarity index) to S. Default value is 1. |
'gamma',G | Set the degree of selectivity (slope of the sigmoid link function representing the psychometric link between transformation from the distance metric and similarity index) to G. Default value is 6. |
'lat',lat | Set the apparent lateral angle of the target sound to lat. Default value is 0 degree (median SP). |
'stim',stim | Define the stimulus (source signal without directional features). As default an impulse is used. |
'fsstim',fss | Define the sampling rate of the stimulus. Default value is 48000 Hz. |
'flow',flow | Set the lowest frequency in the filterbank to flow. Default value is 700 Hz. |
'fhigh',fhigh | Set the highest frequency in the filterbank to fhigh. Default value is 18000 Hz. |
'space',sp | Set spacing of auditory filter bands (i.e., distance between neighbouring bands) to sp in number of equivalent rectangular bandwidths (ERBs). Default value is 1 ERB. |
'do',do | Set the differential order of the spectral gradient extraction to do. Default value is 1 and includes restriction to positive gradients inspired by cat DCN functionality. |
'bwcoef',bwc | Set the binaural weighting coefficient bwc. Default value is 13 degrees. |
'polsamp',ps | Define the polar-angle sampling of the acoustic data provided for the current sagittal plane. As default the sampling of ARI's HRTFs in the median SP is used, i.e., ps = [-30:5:70,80,100,110:5:210] degrees. |
'rangsamp',rs | Define the equi-polar sampling of the response predictions. The default is rs = 5 degrees. |
'mrsmsp',eps | Set the motoric response scatter eps within the median sagittal plane. Default value is 17 degrees. |
baumgartner2014 accepts the following flags:
'regular' | Apply spline interpolation in order to regularize the angular sampling of the polar response angle. This is the default. |
'noregular' | Disable regularization of angular sampling. |
'errorflag' | May be one of the error flags defined in baumgartner2014_pmv2ppp or localizationerror. |
R. Baumgartner, P. Majdak, and B. Laback. Modeling sound-source localization in sagittal planes for human listeners. The Journal of the Acoustical Society of America, 136(2):791--802, 2014. [ DOI ]
R. Lyon. All pole models of auditory filtering. In E. R. Lewis, G. R. Long, R. F. Lyon, P. M. Narins, C. R. Steele, and E. Hecht-Poinar, editors, Diversity in auditory mechanics, pages 205--211. World Scientific Publishing, Singapore, 1997.