Computational Imaging Without a Computer: Seeing Through Random Diffusers at the Speed of Light
Abstract
Imaging through diffusers presents a challenging problem with various digital image reconstruction solutions demonstrated to date using computers. We present a computer-free, all-optical image reconstruction method to see through random diffusers at the speed of light. Using deep learning, a set of diffractive surfaces are designed/trained to all-optically reconstruct images of objects that are covered by random phase diffusers. We experimentally demonstrated this concept using coherent THz illumination and all-optically reconstructed objects distorted by unknown, random diffusers, never used during training. Unlike digital methods, all-optical diffractive reconstructions do not require power except for the illumination light. This diffractive solution to see through diffusers can be extended to other wavelengths, and might fuel various applications in biomedical imaging, astronomy, atmospheric sciences, oceanography, security, robotics, among others.
Cite
@article{arxiv.2107.06586,
title = {Computational Imaging Without a Computer: Seeing Through Random Diffusers at the Speed of Light},
author = {Yi Luo and Yifan Zhao and Jingxi Li and Ege Cetintas and Yair Rivenson and Mona Jarrahi and Aydogan Ozcan},
journal= {arXiv preprint arXiv:2107.06586},
year = {2022}
}
Comments
35 Pages, 7 Figures