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Head-related transfer functions (HRTFs) capture the free-field sound transmission from a sound source to the listeners ears, incorporating all the cues for sound localization, such as interaural time and level differences as well as the spectral cues that originate from scattering, diffraction, and reflection on the human pinnae, head, and body. In this study, HRTFs were acoustically measured and numerically simulated for the FABIAN head-and-torso simulator on a full-spherical and high-resolution sampling grid. HRTFs were acquired for 11 horizontal head-above-torso orientations, covering the typical range of motion of +/-50°. This made it possible to account for head movements in dynamic binaural auralizations. Because of a lack of an external reference for the HRTFs, measured and simulated data sets were cross-validated by applying auditory models for localization performance and spectral coloration. The results indicate a high degree of similarity between the two data sets regarding all tested aspects, thus suggesting that they are free of systematic errors.
Author (s): Brinkmann, Fabian; Lindau, Alexander; Weinzierl, Stefan; Par, Steven van de; Müller-Trapet, Markus; Opdam, Rob; Vorländer, Michael
Affiliation:
Audio Communication Group, Technical University Berlin, Germany; Acoustics Group, Cluster of Excellence
(See document for exact affiliation information.)
Publication Date:
2017-10-06
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Brinkmann, Fabian; Lindau, Alexander; Weinzierl, Stefan; Par, Steven van de; Müller-Trapet, Markus; Opdam, Rob; Vorländer, Michael; 2017; A High Resolution and Full-Spherical Head-Related Transfer Function Database for Different Head-Above-Torso Orientations [PDF]; Audio Communication Group, Technical University Berlin, Germany; Acoustics Group, Cluster of Excellence; Paper ; Available from: https://aes2.org/publications/elibrary-page/?id=19357
Brinkmann, Fabian; Lindau, Alexander; Weinzierl, Stefan; Par, Steven van de; Müller-Trapet, Markus; Opdam, Rob; Vorländer, Michael; A High Resolution and Full-Spherical Head-Related Transfer Function Database for Different Head-Above-Torso Orientations [PDF]; Audio Communication Group, Technical University Berlin, Germany; Acoustics Group, Cluster of Excellence; Paper ; 2017 Available: https://aes2.org/publications/elibrary-page/?id=19357
@article{brinkmann2017a,
author={brinkmann fabian and lindau alexander and weinzierl stefan and par steven van de and müller-trapet markus and opdam rob and vorländer michael},
journal={journal of the audio engineering society},
title={a high resolution and full-spherical head-related transfer function database for different head-above-torso orientations},
year={2017},
volume={65},
issue={10},
pages={841-848},
month={october},}
TY – paper
TI – A High Resolution and Full-Spherical Head-Related Transfer Function Database for Different Head-Above-Torso Orientations
SP – 841 EP – 848
AU – Brinkmann, Fabian
AU – Lindau, Alexander
AU – Weinzierl, Stefan
AU – Par, Steven van de
AU – Müller-Trapet, Markus
AU – Opdam, Rob
AU – Vorländer, Michael
PY – 2017
JO – Journal of the Audio Engineering Society
VO – 65
IS – 10
Y1 – October 2017