[EUSIPCO 2022] Selective Residual M-Net for Real Image Denoising
Chi-Mao Fan, Tsung-Jung Liu, Kuan-Hsien Liu
Abstract : Image restoration is a low-level vision task which is restoring the degraded images to noise-free images. With the success of deep neural networks, especially the convolutional neural networks suppress the traditional restoration methods and become the mainstream in the computer vision. To advance the performance of denoising algorithms, we propose a blind real image denoising network (SRMNet) by employing a hierarchical architecture improved from U-Net. We use a selective kernel with residual block on the hierarchical structural named M-Net to enrich the multi-scale semantic information. Furthermore, our SRMNet has competitive performance results on two synthetic and two realworld noisy datasets in terms of quantitative metrics and visual quality.
Overall Framework of SRMNet |
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Selective Residual Block (SRB) |
Resizing Block (Pixel Shuffle) |
You can simply demo on the space of Hugging Face:
Or test on local environment:
To test the pre-trained models of Denoising on your own images, run
python demo.py --input_dir images_folder_path --result_dir save_images_here --weights path_to_models
All pre-trained models can be downloaded at pretrained_model/README.md or here
To train the restoration models of Denoising. You should check the following components are correct:
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training.yaml
:# Training configuration GPU: [0,1,2,3] VERBOSE: False MODEL: MODE: 'SRMNet_denoise' # Optimization arguments. OPTIM: BATCH: 2 EPOCHS: 100 # EPOCH_DECAY: [10] LR_INITIAL: 1e-4 LR_MIN: 1e-6 # BETA1: 0.9 TRAINING: VAL_AFTER_EVERY: 1 RESUME: False TRAIN_PS: 256 VAL_PS: 256 TRAIN_DIR: 'D:/PycharmProjects/SUNet-main/datasets/Denoising_DIV2K/train' # path to training data VAL_DIR: 'D:/PycharmProjects/SUNet-main/datasets/Denoising_DIV2K/test' # path to validation data SAVE_DIR: './checkpoints' # path to save models and images
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Dataset:
The preparation of dataset in more detail, see Dataset/README.md. -
Train:
If the above path and data are all correctly setting, just simply run:python train.py
- To run the models of real image denoising, see test_DND_real_denoising.py and test_SIDD_real_denoising.py.
- To test the PSNR and SSIM of real image denoising, see evaluation_DND.py and evaluation_SIDD.m.
- To test the PSNR and SSIM of AWGN image denoising, see the evaluation.m.
- AWGN image denoising
- Real image denoising
- Comparison of model complexity
More visual results can be downloaded at here.
@inproceedings{fan2022selective,
title={Selective Residual M-Net for Real Image Denoising},
author={Fan, Chi-Mao and Liu, Tsung-Jung and Liu, Kuan-Hsien and Chiu, Ching-Hsiang},
booktitle={2022 30th European Signal Processing Conference (EUSIPCO)},
pages={469--473},
year={2022},
organization={IEEE}
}
If you have any question, feel free to contact qaz5517359@gmail.com