In this section
@article{Daugintis:2026:10.1121/10.0043130,
author = {Daugintis, R and Geronazzo, M and Poole, KC and Picinali, L},
doi = {10.1121/10.0043130},
journal = {J Acoust Soc Am},
pages = {2822--2843},
title = {Perceptual evaluation of an auditory model-based similarity metric for head-related transfer functions.},
url = {http://dx.doi.org/10.1121/10.0043130},
volume = {159},
year = {2026}
}
TY - JOUR
AB - A key challenge in binaural spatial audio personalisation is defining perceptual similarity metrics that meaningfully rate non-individual head-related transfer function (HRTF) fit. A metric using Bayesian auditory modelling has recently been proposed to address this. It predicts human localisation performance with non-individual HRTFs by matching their auditory cues to individual cues and selects the best and worst non-individual HRTFs based on predicted localisation errors. We present a perceptual evaluation of this selection with 17 participants using static localisation and dynamic spatial audio quality assessments. Localisation performance was significantly poorer with the model-selected worst HRTF, while the best HRTF did not differ significantly from the individual HRTF for most error metrics. Qualitatively, while participants found the best HRTF to be different from the individual HRTF in terms of overall quality and tone colour, the perceived dissimilarity with the worst HRTF was significantly greater. Cross-experiment analysis revealed a moderate correlation between degradation in localisation performance and perceived differences in these qualities. However, no significant differences in perceived naturalness or externalisation were found between HRTF conditions in an anechoic test environment. Overall, these results support the use of the auditory model-based metric for evaluating non-individual HRTFs.
AU - Daugintis,R
AU - Geronazzo,M
AU - Poole,KC
AU - Picinali,L
DO - 10.1121/10.0043130
EP - 2843
PY - 2026///
SP - 2822
TI - Perceptual evaluation of an auditory model-based similarity metric for head-related transfer functions.
T2 - J Acoust Soc Am
UR - http://dx.doi.org/10.1121/10.0043130
UR - https://www.ncbi.nlm.nih.gov/pubmed/41879331
VL - 159
ER -