D. Poirier-Quinot, and BR. G.. Katz, "The Anaglyph Binaural Audio Engine," Engineering Brief 431, (2018 May.). doi:
D. Poirier-Quinot, and BR. G.. Katz, "The Anaglyph Binaural Audio Engine," Engineering Brief 431, (2018 May.). doi:
Abstract: Anaglyph is part of an ongoing research effort into the perceptual and technical capabilities of binaural rendering. The Anaglyph binaural audio engine is a VST audio plugin for binaural spatialization integrating the results of over a decade of spatial hearing research. Anaglyph has been designed as an audio plugin to both support ongoing research efforts as well as to make accessible the fruits of this research to audio engineers through traditional existing DAW environments. Among its features, Anaglyph includes a personalizable morphological ITD model, near-field ILD and HRTF parallax corrections, a Localization Enhancer, an Externalization Booster, and SOFA HRIR file support. The basic architecture and implementation of each audio-related component is presented here.
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@article{poirier-quinot2018the,
author={poirier-quinot, david and katz, brian f. g.},
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abstract={anaglyph is part of an ongoing research effort into the perceptual and technical capabilities of binaural rendering. the anaglyph binaural audio engine is a vst audio plugin for binaural spatialization integrating the results of over a decade of spatial hearing research. anaglyph has been designed as an audio plugin to both support ongoing research efforts as well as to make accessible the fruits of this research to audio engineers through traditional existing daw environments. among its features, anaglyph includes a personalizable morphological itd model, near-field ild and hrtf parallax corrections, a localization enhancer, an externalization booster, and sofa hrir file support. the basic architecture and implementation of each audio-related component is presented here.},}
TY - paper
TI - The Anaglyph Binaural Audio Engine
SP -
EP -
AU - Poirier-Quinot, David
AU - Katz, Brian F. G.
PY - 2018
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - May 2018
TY - paper
TI - The Anaglyph Binaural Audio Engine
SP -
EP -
AU - Poirier-Quinot, David
AU - Katz, Brian F. G.
PY - 2018
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - May 2018
AB - Anaglyph is part of an ongoing research effort into the perceptual and technical capabilities of binaural rendering. The Anaglyph binaural audio engine is a VST audio plugin for binaural spatialization integrating the results of over a decade of spatial hearing research. Anaglyph has been designed as an audio plugin to both support ongoing research efforts as well as to make accessible the fruits of this research to audio engineers through traditional existing DAW environments. Among its features, Anaglyph includes a personalizable morphological ITD model, near-field ILD and HRTF parallax corrections, a Localization Enhancer, an Externalization Booster, and SOFA HRIR file support. The basic architecture and implementation of each audio-related component is presented here.
Anaglyph is part of an ongoing research effort into the perceptual and technical capabilities of binaural rendering. The Anaglyph binaural audio engine is a VST audio plugin for binaural spatialization integrating the results of over a decade of spatial hearing research. Anaglyph has been designed as an audio plugin to both support ongoing research efforts as well as to make accessible the fruits of this research to audio engineers through traditional existing DAW environments. Among its features, Anaglyph includes a personalizable morphological ITD model, near-field ILD and HRTF parallax corrections, a Localization Enhancer, an Externalization Booster, and SOFA HRIR file support. The basic architecture and implementation of each audio-related component is presented here.
Open Access
Authors:
Poirier-Quinot, David; Katz, Brian F. G.
Affiliation:
Sorbonne Université, CNRS, Paris, France
AES Convention:
144 (May 2018)eBrief:431
Publication Date:
May 14, 2018Import into BibTeX
Subject:
Spatial Audio
Permalink:
http://www.aes.org/e-lib/browse.cfm?elib=19544
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