Epipolar Time-of-Flight Imaging

S. Achar, J. Bartels, W. L. Whittaker, K. N. Kutulakos, and S. G. Narasimhan

Journal Article, ACM Transactions on Graphics (TOG), Vol. 36, No. 4, July, 2017

Abstract

Consumer time-of-flight depth cameras like Kinect and PMD are cheap, compact and produce video-rate depth maps in short-range applications. In this paper we apply energy-efficient epipolar imaging to the ToF domain to significantly expand the versatility of these sensors: we demonstrate live 3D imaging at over 15 m range outdoors in bright sunlight; robustness to global transport effects such as specular and diffuse inter-reflections---the first live demonstration for this ToF technology; interference-free 3D imaging in the presence of many ToF sensors, even when they are all operating at the same optical wavelength and modulation frequency; and blur-free, distortion-free 3D video in the presence of severe camera shake. We believe these achievements can make such cheap ToF devices broadly applicable in consumer and robotics domains.

BibTeX

@article{Achar-2017-120191,
author = {S. Achar and J. Bartels and W. L. Whittaker and K. N. Kutulakos and S. G. Narasimhan},
title = {Epipolar Time-of-Flight Imaging},
journal = {ACM Transactions on Graphics (TOG)},
year = {2017},
month = {July},
volume = {36},
number = {4},
}

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