Awesome
PixTransform
PyTorch implementation of the algorithm presented in our paper [1]. The algorithm can be used to perform guided super-resolution, for instance:
<img align="center" width="400px" src="imgs/Frontpage.png">Have a look at our blog post or publication if you want to learn more about the method.
The function PixTransform
takes as input two images, the source image of size M x M
and a guide image of size C x N x N, and returns an upsampled version of the source image with size
N x N. The upsampling factor D, equal to N/M, must be an integer.
predicted_target = PixTransform(source,guide)
additional variables can be passed to change the default parameters. For further details about the algorithm see [1]
Getting started
Installation
clone this git repository and make sure that the following packages are installed:
- numpy
- matplotlib
- scipy
- Pytorch
- ProxTV (optional)
- tqdm
Example script
To run the algorithm on some sample images check the Jupyter Notebook file process_examples.ipynb
.
Other methods
We compare the results of our algorithm with the results of the guided filter [2], the fast bilateral solver [3] (authors' implementation), the static-dynamic filter [4] (authors' implementation) and the multi-scale guided network [5] (authors' implementation).
References
[2] K. He, J. Sun, X. Tang. "Guided image filtering", TPAMI, 2013.
[3] J. T. Barron, B. Poole. "The fast bilateral solver", ECCV, 2016.
[4] B. Ham, M. Cho, J. Ponce. "Robust guided image filtering using nonconvex potentials", TPAMI, 2018.
[5] T.-W. Hui, C. C. Loy, X. Tang. "Depth map super-resolution by deep multi-scale guidance", ECCV, 2016.