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Y. Sato, A. Saji, and J. Huang, "A 3D Sound Localization System Using Two Side Loudspeaker Matrices," Paper 9862, (2017 October.). doi: Y. Sato, A. Saji, and J. Huang, "A 3D Sound Localization System Using Two Side Loudspeaker Matrices," Paper 9862, (2017 October.). doi:
Abstract: We have proposed a new 3D sound reproduction system that consists of two side loudspeaker matrices each with four loudspeakers. The 3D sound images that applied to this system were created by the amplitude panning method and convolution of head-related transfer function (HRTF). In our past research we used the loudspeaker matrices arranged as a square shape, nevertheless the accuracy of sound image localization should be improved. We changed the shape of loudspeaker matrices from a square to a diamond by rotating 45 degrees  to improve direction perception. As a result, we could be closer the localized sound images to intended directions than the square-shaped loudspeaker matrices by implementing the diamond-shaped loudspeaker matrices.

@article{sato2017a,
author={sato, yoshihiko and saji, akira and huang, jie},
journal={journal of the audio engineering society},
title={a 3d sound localization system using two side loudspeaker matrices},
year={2017},
volume={},
number={},
pages={},
doi={},
month={october},} @article{sato2017a,
author={sato, yoshihiko and saji, akira and huang, jie},
journal={journal of the audio engineering society},
title={a 3d sound localization system using two side loudspeaker matrices},
year={2017},
volume={},
number={},
pages={},
doi={},
month={october},
abstract={we have proposed a new 3d sound reproduction system that consists of two side loudspeaker matrices each with four loudspeakers. the 3d sound images that applied to this system were created by the amplitude panning method and convolution of head-related transfer function (hrtf). in our past research we used the loudspeaker matrices arranged as a square shape, nevertheless the accuracy of sound image localization should be improved. we changed the shape of loudspeaker matrices from a square to a diamond by rotating 45 degrees  to improve direction perception. as a result, we could be closer the localized sound images to intended directions than the square-shaped loudspeaker matrices by implementing the diamond-shaped loudspeaker matrices.},}

TY - paper
TI - A 3D Sound Localization System Using Two Side Loudspeaker Matrices
SP - EP -
AU - Sato, Yoshihiko
AU - Saji, Akira
AU - Huang, Jie
PY - 2017
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - October 2017 TY - paper
TI - A 3D Sound Localization System Using Two Side Loudspeaker Matrices
SP - EP -
AU - Sato, Yoshihiko
AU - Saji, Akira
AU - Huang, Jie
PY - 2017
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - October 2017
AB - We have proposed a new 3D sound reproduction system that consists of two side loudspeaker matrices each with four loudspeakers. The 3D sound images that applied to this system were created by the amplitude panning method and convolution of head-related transfer function (HRTF). In our past research we used the loudspeaker matrices arranged as a square shape, nevertheless the accuracy of sound image localization should be improved. We changed the shape of loudspeaker matrices from a square to a diamond by rotating 45 degrees  to improve direction perception. As a result, we could be closer the localized sound images to intended directions than the square-shaped loudspeaker matrices by implementing the diamond-shaped loudspeaker matrices.