SRA: Fast Removal of General Multipath for ToF Sensors
- Daniel Freedman ,
- Eyal Krupka ,
- Yoni Smolin ,
- Ido Leichter ,
- Mirko Schmidt
13th European Conference, Zurich, Switzerland, September 6-12, 2014 |
Published by Springer International Publishing
A major issue with Time of Flight sensors is the presence of multipath interference. We present Sparse Reflections Analysis (SRA), an algorithm for removing this interference which has two main advantages. First, it allows for very general forms of multipath, including interference with three or more paths, diffuse multipath resulting from Lambertian surfaces, and combinations thereof. SRA removes this general multipath with robust techniques based on L 1 optimization. Second, due to a novel dimension reduction, we are able to produce a very fast version of SRA, which is able to run at frame rate. Experimental results on both synthetic data with ground truth, as well as real images of challenging scenes, validate the approach.
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Sparse Reflections Analysis: Sensor Data from ECCV 2014 Paper
November 26, 2014
This file contains the raw sensor data used the ECCV 2014 paper, "SRA: Fast Removal of General Multipath for ToF Sensors" by D. Freedman, Y. Smolin, E. Krupka, I. Leichter, and M. Schmidt. This includes data for 3 separate scenes, see Section 5.4 of the paper. All files are binaries, whose formats are explained in the README.txt.