VSR x4: EGVSR; Upscale x4: Bicubic Interpolation
This is a PyTorch implementation of EGVSR: Efficcient & Generic Video Super-Resolution (VSR), using subpixel convolution to optimize the inference speed of TecoGAN VSR model. Please refer to the official implementation ESPCN and TecoGAN for more information.
- Unified Framework: This repo provides a unified framework for various state-of-the-art DL-based VSR methods, such as VESPCN, SOFVSR, FRVSR, TecoGAN and our EGVSR.
- Multiple Test Datasets: This repo offers three types of video datasets for testing, i.e., standard test dataset -- Vid4, Tos3 used in TecoGAN and our new dataset -- Gvt72 (selected from Vimeo site and including more scenes).
- Better Performance: This repo provides model with faster inferencing speed and better overall performance than prior methods. See more details in Benchmarks section.
- Ubuntu >= 16.04
- NVIDIA GPU + CUDA & CUDNN
- Python 3
- PyTorch >= 1.0.0
- Python packages: numpy, matplotlib, opencv-python, pyyaml, lmdb (requirements.txt & req.txt)
- (Optional) Matlab >= R2016b
Download the official training dataset based on the instructions in TecoGAN-TensorFlow, rename to VimeoTecoGAN
and then place under ./data
.
- Vid4 -- Four video sequences: city, calendar, foliage and walk;
- Tos3 -- Three video sequences: bridge, face and room;
- Gvt72 -- Generic VSR Test Dataset: 72 video sequences (including natural scenery, culture scenery, streetscape scene, life record, sports photography, etc, as shown below)
You can get them at ⏬ 百度网盘 (提取码:8tqc) and put them into 📁 Datasets. The following shows the structure of the above three datasets.
data
├─ Vid4
├─ GT # Ground-Truth (GT) video sequences
└─ calendar
├─ 0001.png
└─ ...
├─ Gaussian4xLR # Low Resolution (LR) video sequences in gaussian degradation and x4 down-sampling
└─ calendar
├─ 0001.png
└─ ...
└─ ToS3
├─ GT
└─ Gaussian4xLR
└─ Gvt72
├─ GT
└─ Gaussian4xLR
Experimental Environment
Version | Info. | |
---|---|---|
System | Ubuntu 18.04.5 LTS | X86_64 |
CPU | Intel i9-9900 | 3.10GHz |
GPU | Nvidia RTX 2080Ti | 11GB GDDR6 |
Memory | DDR4 2666 | 32GB×2 |
1.LR 2.VESPCN 3.SOFVSR 4.DUF 5.Ours:EGVSR 6.GT
Objective metrics for visual quality evaluation[1]
1.VESPCN 2.SOFVSR 3. FRVSR 4.TecoGAN 5.Ours:EGVSR 6.GT
1.LR 2.VESPCN 3.SOFVSR 4.DUF 5.Ours:EGVSR 6.GT
Objective metrics for visual quality and temporal coherence evaluation[1]
Please refer to FLOW_walk, FLOW_foliage and FLOW_city.
Comparison of various SOTA VSR model on video quality score and speed performance[3]
[1] ⬇️:smaller value for better performance, ⬆️: on the contrary; Red: stands for Top1, Blue: Top2. [2] The calculation formula of video quality score considering both spatial and temporal domain, using lambda1=lambda2=lambda3=1/3. [3] FLOPs & speed are computed on RGB with resolution 960x540 to 3840x2160 (4K) on NVIDIA GeForce GTX 2080Ti GPU.
This EGVSR project is released under the MIT license. See more details in LICENSE. The provided implementation is strictly for academic purposes only. If EGVSR helps your research or work, please consider citing EGVSR. The following is a BibTeX reference:
@misc{thmen2021egvsr,
author = {Yanpeng Cao, Chengcheng Wang, Changjun Song, Yongming Tang and He Li},
title = {EGVSR},
howpublished = {\url{https://github.com/Thmen/EGVSR}},
year = {2021}
}
Yanpeng Cao, Chengcheng Wang, Changjun Song, Yongming Tang and He Li. EGVSR. https://github.com/Thmen/EGVSR, 2021.
This code is built on the following projects. We thank the authors for sharing their codes.