Resolving multiple propagation paths in time of flight range cameras using direct and global separation methods

Refael Whyte; Lee Streeter; Michael J. Cree; Adrian A. Dorrington

doi:10.1117/1.OE.54.11.113109

24 November 2015 Resolving multiple propagation paths in time of flight range cameras using direct and global separation methods

Refael Whyte, Lee Streeter, Michael J. Cree, Adrian A. Dorrington

Author Affiliations +

Optical Engineering, Vol. 54, Issue 11, 113109 (November 2015). https://doi.org/10.1117/1.OE.54.11.113109

Abstract

Time of flight (ToF) range cameras illuminate the scene with an amplitude-modulated continuous wave light source and measure the returning modulation envelopes: phase and amplitude. The phase change of the modulation envelope encodes the distance travelled. This technology suffers from measurement errors caused by multiple propagation paths from the light source to the receiving pixel. The multiple paths can be represented as the summation of a direct return, which is the return from the shortest path length, and a global return, which includes all other returns. We develop the use of a sinusoidal pattern from which a closed form solution for the direct and global returns can be computed in nine frames with the constraint that the global return is a spatially lower frequency than the illuminated pattern. In a demonstration on a scene constructed to have strong multipath interference, we find the direct return is not significantly different from the ground truth in 33/136 pixels tested; where for the full-field measurement, it is significantly different for every pixel tested. The variance in the estimated direct phase and amplitude increases by a factor of eight compared with the standard time of flight range camera technique.

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Refael Whyte, Lee Streeter, Michael J. Cree, and Adrian A. Dorrington "Resolving multiple propagation paths in time of flight range cameras using direct and global separation methods," Optical Engineering 54(11), 113109 (24 November 2015). https://doi.org/10.1117/1.OE.54.11.113109

Published: 24 November 2015

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