A Closer Look at Reference Learning for Fourier Phase Retrieval
Abstract
Reconstructing images from their Fourier magnitude measurements is a problem that often arises in different research areas. This process is also referred to as phase retrieval. In this work, we consider a modified version of the phase retrieval problem, which allows for a reference image to be added onto the image before the Fourier magnitudes are measured. We analyze an unrolled Gerchberg-Saxton (GS) algorithm that can be used to learn a good reference image from a dataset. Furthermore, we take a closer look at the learned reference images and propose a simple and efficient heuristic to construct reference images that, in some cases, yields reconstructions of comparable quality as approaches that learn references. Our code is available at https://github.com/tuelwer/reference-learning.
Cite
Text
Uelwer et al. "A Closer Look at Reference Learning for Fourier Phase Retrieval." NeurIPS 2021 Workshops: Deep_Inverse, 2021.Markdown
[Uelwer et al. "A Closer Look at Reference Learning for Fourier Phase Retrieval." NeurIPS 2021 Workshops: Deep_Inverse, 2021.](https://mlanthology.org/neuripsw/2021/uelwer2021neuripsw-closer/)BibTeX
@inproceedings{uelwer2021neuripsw-closer,
title = {{A Closer Look at Reference Learning for Fourier Phase Retrieval}},
author = {Uelwer, Tobias and Rucks, Nick and Harmeling, Stefan},
booktitle = {NeurIPS 2021 Workshops: Deep_Inverse},
year = {2021},
url = {https://mlanthology.org/neuripsw/2021/uelwer2021neuripsw-closer/}
}