by Nagano, Koki, Jones, Andrew, Liu, Jing, Busch, Jay, Yu, Xueming, Bolas, Mark and Debevec, Paul
Abstract:
Video projectors are rapidly shrinking in size, power consumption, and cost. Such projectors provide unprecedented flexibility to stack, arrange, and aim pixels without the need for moving parts. This dense projector display is optimized in size and resolution to display an autostereoscopic life-sized 3D human face. It utilizes 72 Texas Instruments PICO projectors to illuminate a 30 cm x 30 cm anisotropic screen with a wide 110-degree field of view. The demonstration includes both live scanning of subjects and virtual animated characters.
Reference:
An Autostereoscopic Projector Array Optimized for 3D Facial Display (Nagano, Koki, Jones, Andrew, Liu, Jing, Busch, Jay, Yu, Xueming, Bolas, Mark and Debevec, Paul), In SIGGRAPH 2013 Emerging Technologies, 2013.
Bibtex Entry:
@inproceedings{nagano_autostereoscopic_2013,
title = {An {Autostereoscopic} {Projector} {Array} {Optimized} for 3D {Facial} {Display}},
url = {http://ict.usc.edu/pubs/An%20Autostereoscopic%20Projector%20Array%20Optimized%20for%203D%20Facial%20Display%20.pdf},
abstract = {Video projectors are rapidly shrinking in size, power consumption, and cost. Such projectors provide unprecedented flexibility to stack, arrange, and aim pixels without the need for moving parts. This dense projector display is optimized in size and resolution to display an autostereoscopic life-sized 3D human face. It utilizes 72 Texas Instruments PICO projectors to illuminate a 30 cm x 30 cm anisotropic screen with a wide 110-degree field of view. The demonstration includes both live scanning of subjects and virtual animated characters.},
booktitle = {{SIGGRAPH} 2013 {Emerging} {Technologies}},
author = {Nagano, Koki and Jones, Andrew and Liu, Jing and Busch, Jay and Yu, Xueming and Bolas, Mark and Debevec, Paul},
month = jul,
year = {2013},
keywords = {Graphics, UARC}
}