Resolving multipath interference in time-of-flight imaging via modulation frequency diversity and sparse regularization

Bhandari, Ayush; Kadambi, Achuta; Whyte, Refael; Barsi, Christopher; Feigin, Micha; Dorrington, Adrian; Raskar, Ramesh

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Bhandari, Ayush; Kadambi, Achuta; Whyte, Refael; Barsi, Christopher; Feigin, Micha; ... Show more

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Abstract

Time-of-flight (ToF) cameras calculate depth maps by reconstructing phase shifts of amplitude-modulated signals. For broad illumination of transparent objects, reflections from multiple scene points can illuminate a given pixel, giving rise to an erroneous depth map. We report here a sparsity-regularized solution that separates K interfering components using multiple modulation frequency measurements. The method maps ToF imaging to the general framework of spectral estimation theory and has applications in improving depth profiles and exploiting multiple scattering.

Date issued

2014-03

URI

http://hdl.handle.net/1721.1/92462

Department

Massachusetts Institute of Technology. Media Laboratory; Program in Media Arts and Sciences (Massachusetts Institute of Technology)

Journal

Optics Letters

Publisher

Optical Society of America

Citation

Bhandari, Ayush, Achuta Kadambi, Refael Whyte, Christopher Barsi, Micha Feigin, Adrian Dorrington, and Ramesh Raskar. “Resolving Multipath Interference in Time-of-Flight Imaging via Modulation Frequency Diversity and Sparse Regularization.” Optics Letters 39, no. 6 (2014): 1705.

Version: Original manuscript

ISSN

0146-9592

1539-4794

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