High spatio-temporal resolution video with compressed sensing
Posted on 2017-04-28 - 16:45
We present a prototype compressive video camera that encodes scene movement using a translated binary photomask in the optical path. The encoded recording can then be used to reconstruct multiple output frames from each captured image, effectively synthesizing high speed video. The use of a printed binary mask allows reconstruction at higher spatial resolutions than has been previously demonstrated. In addition, we improve upon previous work by investigating tradeoffs in mask design and reconstruction algorithm selection. We identify a mask design that consistently provides the best performance across multiple reconstruction strategies in simulation, and verify it with our prototype hardware. Finally, we compare reconstruction algorithms and identify the best choice in terms of balancing reconstruction quality and speed.
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Koller, Roman; Schmid, Lukas; Matsuda, Nathan; Niederberger, Thomas; Spinoulas, Leonidas; Cossairt, Oliver; et al. (2015). High spatio-temporal resolution video with compressed sensing. Optica Publishing Group. Collection. https://doi.org/10.6084/m9.figshare.c.3765506.v1
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AUTHORS (8)
RK
Roman Koller
LS
Lukas Schmid
NM
Nathan Matsuda
TN
Thomas Niederberger
LS
Leonidas Spinoulas
OC
Oliver Cossairt
GS
Guido Schuster
AK
Aggelos K. Katsaggelos