by Fyffe, Graham, Yu, Xueming and Debevec, Paul
Abstract:
We propose a novel method for single-shot photometric stereo by spectral multiplexing. The output of our method is a simultaneous per-pixel estimate of the surface normal and full-color reflectance. Our method is well suited to materi- als with varying color and texture, requires no time-varying illumination, and no high-speed cameras. Being a single- shot method, it may be applied to dynamic scenes with- out any need for optical flow. Our key contributions are a generalization of three-color photometric stereo to more than three color channels, and the design of a practical six- color-channel system using off-the-shelf parts.
Reference:
Single-Shot Photometric Stereo by Spectral Multiplexing (Fyffe, Graham, Yu, Xueming and Debevec, Paul), In SIGGRAPH Asia, 2010.
Bibtex Entry:
@inproceedings{fyffe_single-shot_2010,
address = {Seoul, South Korea},
title = {Single-{Shot} {Photometric} {Stereo} by {Spectral} {Multiplexing}},
url = {http://www.ict.usc.edu/pubs/Single-Shot%20Photometric%20Stereo%20by%20Spectral%20Multiplexing.pdf},
abstract = {We propose a novel method for single-shot photometric stereo by spectral multiplexing. The output of our method is a simultaneous per-pixel estimate of the surface normal and full-color reflectance. Our method is well suited to materi- als with varying color and texture, requires no time-varying illumination, and no high-speed cameras. Being a single- shot method, it may be applied to dynamic scenes with- out any need for optical flow. Our key contributions are a generalization of three-color photometric stereo to more than three color channels, and the design of a practical six- color-channel system using off-the-shelf parts.},
booktitle = {{SIGGRAPH} {Asia}},
author = {Fyffe, Graham and Yu, Xueming and Debevec, Paul},
month = dec,
year = {2010},
keywords = {Graphics}
}