Awesome
Unsupervised Deep Video Denoising
To appear at IEEE/CVF International Conference on Computer Vision (ICCV), 2021.
Authors: Dev Yashpal Sheth*, Sreyas Mohan*, Joshua Vincent, Ramon Manzorro, Peter A. Crozier, Mitesh M. Khapra, Eero P. Simoncelli and Carlos Fernandez-Granda [* - Equal Contribution].
Paper: arXiv:2011.15045
Website: https://sreyas-mohan.github.io/udvd/
Pre-trained Models
The pretrained
folder contains the saved models, details about each are listed below.
blind_video_net.pt
- UDVD trained on the DAVIS dataset and Gaussian noise with sigma = 30.blind_spot_net.pt
- UDVD (1 frame) which is simply a unsupervised deep image denoiser.fast_dvd_net.pth
- Pretrained FastDVDnet model taken directly from https://github.com/m-tassano/fastdvdnet.fluoro_micro.pt
- UDVD trained on the Fluorescence Microscopy dataset.raw_video.pt
- UDVD trained on the test set of the Raw Video dataset.single_video_Set8_rafting_30.pt
- UDVD-S trained on a single noisy video sequence rafting from the GoPro set with Gaussian noise sigma = 30. Similarly pretrained models for the other 3 seqeunces in the GoPro set have also been released i.e. hypersmooth, motorbike, snowboard.mf2f_online_with_teacher_rafting_30.pth
- MF2F model which is a fine-tuned FastDVDnet directly on the test sequence rafting from the GoPro set with Gaussian noise sigma = 30. We used the official implementation at https://github.com/centreborelli/mf2f.
Jupyter Notebook Demos
We provide the following demos in the notebook_demos
folder.
denoising_demo.ipynb
- Basic usage of pretrained models on courrupted videos.evaluation_demo.ipynb
- Evaluation of UDVD on the Set8 dataset and UDVD-S on rafting from the GoPro set with Gaussian noise sigma = 30.analysis_demo.ipynb
- Video denoising as spatiotemporal adaptive filtering and implicit motion compensation.microscopy_demo.ipynb
- UDVD demo on the Fluorescence Microscopy dataset.raw_video_demo.ipynb
- UDVD demo on the Raw Video dataset.
Datasets
We use the following datasets as part of our paper. Download links to each has been listed below. Note that the Set8 dataset consists of 4 sequences of the GoPro set and 4 sequences of the Derfs set. Please refer to the supplementary material in the paper for details on the exact sequences used.
DAVIS
- Primairy dataset on which the natural videos model was trained. https://davischallenge.org/davis2017/code.htmlGoPro
- Released with the FastDVDnet paper. https://github.com/m-tassano/fastdvdnetDerfs
- Contains 4 sequences of the Set8 set and 3 more were used to compare with MF2F. https://media.xiph.org/video/derf/Vid3oC
- Part of the AIM 2020 Video Extreme Super-Resolution Challenge. https://competitions.codalab.org/competitions/24685CTC
- Fluorescence Microscopy dataset. http://celltrackingchallenge.net/2d-datasets/RawVideo
- Released as part of the RViDeNet paper. https://github.com/cao-cong/RViDeNet
Training
To train UDVD on the DAVIS dataset.
python train.py \
--model blind-video-net-4
--data-path dataset/DAVIS
--dataset DAVIS
--batch-size 32
--lr 1e-4
--num-epochs 40
To train UDVD-S on the rafting sequence from the GoPro set with Gaussian noise sigma = 30.
python single_train.py \
--model blind-video-net-4
--data-path dataset/Set8
--dataset SingleVideo
--dataset-aux GoPro
--video rafting
--aug 2
--sample
--heldout
--batch-size 8
--lr 1e-4
--num-epochs 32
--step-checkpoints
To train UDVD on the Fluorescence Microscopy dataset.
python fluoro_train.py \
--model blind-video-net-4
--channels 1
--out-channels 1
--loss mse
--data-path datasets/CTC
--dataset CTC
--batch-size 32
--lr 1e-4
--num-epochs 40
--step-checkpoints
To train UDVD on the Raw Video dataset.
python raw_train.py \
--model blind-video-net-4
--channels 1
--out-channels 1
--loss mse
--data-path datasets/RawVideo
--dataset RawVideo
--batch-size 8
--lr 1e-4
--num-epochs 4
--step-checkpoints
Citation
@InProceedings{Sheth_2021_ICCV,
author = {Sheth, Dev Yashpal and Mohan, Sreyas and Vincent, Joshua and Manzorro, Ramon and Crozier, Peter A. and Khapra, Mitesh M. and Simoncelli, Eero P. and Fernandez-Granda, Carlos},
title = {Unsupervised Deep Video Denoising},
booktitle = {Proceedings of the IEEE/CVF International Conference on Computer Vision (ICCV)},
month = {October},
year = {2021}
}