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Although musical instrument players may want to learn the spatial impressions of the concert hall beforehand, practicing in the actual hall is not practical due to the geographical and the ?nancial reasons. Hence, it is helpful for players if there is a spatial reproduction system that can recreate the concert hall reverberation in their practice environments. An implementation of crosstalk cancellation method for synthesizing virtual auditory space using loudspeakers called Optimal Source Distribution technique is used to add realistic reverberation of a live venue to a violin performance in real-time. In this research, one of the de?ning parameters for the timbre of convolved reverberation, microphone placements on and over the instrument, were compared by professional players.
Author (s): Marui, Atsushi; Yairi, Motoki; Kamekawa, Toru
Affiliation:
Tokyo University of the Arts, Tokyo, Japan; Kajima Technical Research Institute, Chofu, Tokyo, Japan
(See document for exact affiliation information.)
Publication Date:
2018-07-06
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Marui, Atsushi; Yairi, Motoki; Kamekawa, Toru; 2018; Comparison of Microphone Distances for Real-Time Reverberation Enhancement System Using Optimal Source Distribution Technique [PDF]; Tokyo University of the Arts, Tokyo, Japan; Kajima Technical Research Institute, Chofu, Tokyo, Japan; Paper P9-3; Available from: https://aes2.org/publications/elibrary-page/?id=19629
Marui, Atsushi; Yairi, Motoki; Kamekawa, Toru; Comparison of Microphone Distances for Real-Time Reverberation Enhancement System Using Optimal Source Distribution Technique [PDF]; Tokyo University of the Arts, Tokyo, Japan; Kajima Technical Research Institute, Chofu, Tokyo, Japan; Paper P9-3; 2018 Available: https://aes2.org/publications/elibrary-page/?id=19629
@article{marui2018comparison,
author={marui atsushi and yairi motoki and kamekawa toru},
journal={journal of the audio engineering society},
title={comparison of microphone distances for real-time reverberation enhancement system using optimal source distribution technique},
year={2018},
number={P9-3},
month={july},}