Open AccessDeep-learning-based image reconstruction for compressed ultrafast photography
Author(s) -
Yayao Ma,
Xiaohua Feng,
Liang Gao
Publication year - 2020
Publication title -
optics letters
Language(s) - Uncategorized
Resource type - Journals
SCImago Journal Rank - 1.524
H-Index - 272
eISSN - 1071-2763
pISSN - 0146-9592
DOI - 10.1364/ol.397717
Subject(s) - computer science , artificial intelligence , iterative reconstruction , deep learning , computer vision , compressed sensing , image quality , computational photography , photography , massively parallel , ultrashort pulse , high speed photography , image processing , optics , image (mathematics) , algorithm , physics , laser , art , visual arts , parallel computing
Compressed ultrafast photography (CUP) is a computational optical imaging technique that can capture transient dynamics at an unprecedented speed. Currently, the image reconstruction of CUP relies on iterative algorithms, which are time-consuming and often yield nonoptimal image quality. To solve this problem, we develop a deep-learning-based method for CUP reconstruction that substantially improves the image quality and reconstruction speed. A key innovation toward efficient deep learning reconstruction of a large three-dimensional (3D) event datacube ( x , y , t ) ( x , y , spatial coordinate; t , time) is that we decompose the original datacube into massively parallel two-dimensional (2D) imaging subproblems, which are much simpler to solve by a deep neural network. We validated our approach on simulated and experimental data.
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