Dynamic Crosstalk Cancellation for Binaural Synthesis in Virtual Reality Environments
×
Cite This
Citation & Abstract
T. Lentz, "Dynamic Crosstalk Cancellation for Binaural Synthesis in Virtual Reality Environments," J. Audio Eng. Soc., vol. 54, no. 4, pp. 283-294, (2006 April.). doi:
T. Lentz, "Dynamic Crosstalk Cancellation for Binaural Synthesis in Virtual Reality Environments," J. Audio Eng. Soc., vol. 54 Issue 4 pp. 283-294, (2006 April.). doi:
Abstract: [Engineering Reports] A system is described that combines virtual imaging by binaural synthesis and reproduction over loudspeakers using a dynamic head-tracked crosstalk cancellation (CTC) for the listener who is interacting with a common visual virtual reality (VR) application in real time. To provide a full 360° rotation for the listener, the two-loudspeaker dynamic CTC solution was expanded to four channels. This acoustical system is designed for integration into a visual VR system that produces holographic video images and enables the generation of congruent visual and acoustical scenes.
@article{lentz2006dynamic,
author={lentz, tobias},
journal={journal of the audio engineering society},
title={dynamic crosstalk cancellation for binaural synthesis in virtual reality environments},
year={2006},
volume={54},
number={4},
pages={283-294},
doi={},
month={april},}
@article{lentz2006dynamic,
author={lentz, tobias},
journal={journal of the audio engineering society},
title={dynamic crosstalk cancellation for binaural synthesis in virtual reality environments},
year={2006},
volume={54},
number={4},
pages={283-294},
doi={},
month={april},
abstract={[engineering reports] a system is described that combines virtual imaging by binaural synthesis and reproduction over loudspeakers using a dynamic head-tracked crosstalk cancellation (ctc) for the listener who is interacting with a common visual virtual reality (vr) application in real time. to provide a full 360° rotation for the listener, the two-loudspeaker dynamic ctc solution was expanded to four channels. this acoustical system is designed for integration into a visual vr system that produces holographic video images and enables the generation of congruent visual and acoustical scenes.},}
TY - paper
TI - Dynamic Crosstalk Cancellation for Binaural Synthesis in Virtual Reality Environments
SP - 283
EP - 294
AU - Lentz, Tobias
PY - 2006
JO - Journal of the Audio Engineering Society
IS - 4
VO - 54
VL - 54
Y1 - April 2006
TY - paper
TI - Dynamic Crosstalk Cancellation for Binaural Synthesis in Virtual Reality Environments
SP - 283
EP - 294
AU - Lentz, Tobias
PY - 2006
JO - Journal of the Audio Engineering Society
IS - 4
VO - 54
VL - 54
Y1 - April 2006
AB - [Engineering Reports] A system is described that combines virtual imaging by binaural synthesis and reproduction over loudspeakers using a dynamic head-tracked crosstalk cancellation (CTC) for the listener who is interacting with a common visual virtual reality (VR) application in real time. To provide a full 360° rotation for the listener, the two-loudspeaker dynamic CTC solution was expanded to four channels. This acoustical system is designed for integration into a visual VR system that produces holographic video images and enables the generation of congruent visual and acoustical scenes.
[Engineering Reports] A system is described that combines virtual imaging by binaural synthesis and reproduction over loudspeakers using a dynamic head-tracked crosstalk cancellation (CTC) for the listener who is interacting with a common visual virtual reality (VR) application in real time. To provide a full 360° rotation for the listener, the two-loudspeaker dynamic CTC solution was expanded to four channels. This acoustical system is designed for integration into a visual VR system that produces holographic video images and enables the generation of congruent visual and acoustical scenes.
