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arxiv 1912.01413 v2 pith:OZVTRGA4 submitted 2019-12-02 eess.IV cs.LGphysics.optics

Spatial images from temporal data

classification eess.IV cs.LGphysics.optics
keywords imagingsingle-pointspatialdatadetectorilluminationimagesjust
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Traditional paradigms for imaging rely on the use of a spatial structure, either in the detector (pixels arrays) or in the illumination (patterned light). Removal of the spatial structure in the detector or illumination, i.e., imaging with just a single-point sensor, would require solving a very strongly ill-posed inverse retrieval problem that to date has not been solved. Here, we demonstrate a data-driven approach in which full 3D information is obtained with just a single-point, single-photon avalanche diode that records the arrival time of photons reflected from a scene that is illuminated with short pulses of light. Imaging with single-point time-of-flight (temporal) data opens new routes in terms of speed, size, and functionality. As an example, we show how the training based on an optical time-of-flight camera enables a compact radio-frequency impulse radio detection and ranging transceiver to provide 3D images.

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