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This article formulates and evaluates four different methods for six-degrees-of-freedom binaural reproduction of head-worn microphone array recordings, which may find application within future augmented reality contexts. Three of the explored methods are signalindependent, utilizing least-squares, magnitude least-squares, or plane wave decomposition--based solutions. Rotations and translations are realized by applying directional transformations to the employed spherical rendering or optimization grid. The fourth considered approach is a parametric signal-dependent alternative, which decomposes the array signals into directional and ambient components using beamformers. The directional components are then spatialized by applying binaural filters corresponding to the transformed directions, whereas the ambient sounds are reproduced using the magnitude least-squares solution. Formal perceptual studies were conducted, whereby test participants rated the perceived relative quality of the four binaural rendering methods being evaluated. Of the three signal-independent approaches, the magnitude least-squares solution was rated the highest. The parametric approach was then rated higher than the magnitude least-square solution when the listeners were permitted to move away from the recording point.
Author (s): Mccormack, Leo; Meyer-Kahlen, Nils; Lou Alon, David; Ben-Hur, Zamir; V. Amengual Garí, Sebastià; Robinson, Philip
Affiliation:
Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA
(See document for exact affiliation information.)
Publication Date:
2023-10-06
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Permalink: https://aes2.org/publications/elibrary-page/?id=22237
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Mccormack, Leo; Meyer-Kahlen, Nils; Lou Alon, David; Ben-Hur, Zamir; V. Amengual Garí, Sebastià; Robinson, Philip; 2023; Six-Degrees-of-Freedom Binaural Reproduction of Head-Worn Microphone Array Capture [PDF]; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Paper ; Available from: https://aes2.org/publications/elibrary-page/?id=22237
Mccormack, Leo; Meyer-Kahlen, Nils; Lou Alon, David; Ben-Hur, Zamir; V. Amengual Garí, Sebastià; Robinson, Philip; Six-Degrees-of-Freedom Binaural Reproduction of Head-Worn Microphone Array Capture [PDF]; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Reality Labs Research, Meta, Redmond, WA; Paper ; 2023 Available: https://aes2.org/publications/elibrary-page/?id=22237
@article{mccormack2023six-degrees-of-freedom,
author={mccormack leo and meyer-kahlen nils and lou alon david and ben-hur zamir and v. amengual garí sebastià and robinson philip},
journal={journal of the audio engineering society},
title={six-degrees-of-freedom binaural reproduction of head-worn microphone array capture},
year={2023},
volume={71},
issue={10},
pages={638-649},
month={october},}
TY – paper
TI – Six-Degrees-of-Freedom Binaural Reproduction of Head-Worn Microphone Array Capture
SP – 638 EP – 649
AU – Mccormack, Leo
AU – Meyer-Kahlen, Nils
AU – Lou Alon, David
AU – Ben-Hur, Zamir
AU – V. Amengual Garí, Sebastià
AU – Robinson, Philip
PY – 2023
JO – Journal of the Audio Engineering Society
VO – 71
IS – 10
Y1 – October 2023