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FD-GAN: Generative adversarial Networks with Fusion-discriminator for Single Image Dehazing(AAAI'20)

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__pycache__
__pycache__
 
 
datasets
datasets
 
 
facades
facades
 
 
models
models
 
 
myutils
myutils
 
 
test_model
test_model
 
 
testsample1
testsample1
 
 
testsample2
testsample2
 
 
transforms
transforms
 
 
PSNRSSIM.py
PSNRSSIM.py
 
 
README.md
README.md
 
 
demo.py
demo.py
 
 
generate_testsample.py
generate_testsample.py
 
 
misc.py
misc.py
 
 

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FD-GAN

FD-GAN: Generative adversarial Networks with Fusion-discriminator for Single Image Dehazing(AAAI'20)

PAPER

Yu Dong. Yihao Liu

In this paper, we propose a fully end-to-end algorithm FD-GAN for image dehazing. Moreover, we develop a novel Fusion-discriminator which can integrate the frequency information as additional priors and constraints into the dehazing network. Our method can generate more visually pleasing dehazed results with less color distortion. Extensive experimental results have demonstrated that our method performs favorably against several state-of-the-art methods on both synthetic datasets and real-world hazy images.

Prerequisites

  1. Ubuntu 18.04
  2. Python 3
  3. NVIDIA GPU + CUDA CuDNN (CUDA 8.0)

Installation

  1. conda install pytorch=0.3.0 torchvision cuda80 -c pytorch
  2. Install python package:numpy,scipy,PIL,skimage,h5py

Demo using pre-trained model

Since the proposed method uses hdf5 file to load the traning samples, the generate_testsample.py helps you to creat the testing or training sample yourself.

If your images are real:

python demo.py --valDataroot ./facades/'your_folder_name' --netG ./testmodel/netG_epoch_real.pth

If your images are synthetic:

python demo.py --valDataroot ./facades/'your_folder_name' --netG ./testmodel/netG_epoch_synthetic.pth

To obtain the best performance on synthetic and real-world datasets respectively, we provide two models from different iterations in one training procedure. In addition, please use netG.train() for testing since the batch for training is 1.

Pre-trained dehazing models can be downloaded at (put it in the folder 'test_model'):

https://pan.baidu.com/s/10IgnZ0YiGsUxrgxoQQhsOg or

https://drive.google.com/drive/folders/1Jkf9NgBrGHErQMwFN7wv1QY_vPYUt19r?usp=sharing

Metric

You can run the PSNRSSIM.py for quantitative results

python PSNRSSIM.py --gt_dir ./your_folder_name --result_dir ./your_folder_name

Datasets

You can download our synthetic test-data: RESIDE-SOTS and NTIRE dataset(strored in Hdf5 file and PNG) as following URL: https://pan.baidu.com/s/1oZwVX8FWFNzRaY_JyVB1pA

https://pan.baidu.com/s/1U6RjKF-UYXvBIHDt7SU0Ww

How to read the Hdf5 file

Following are the sample python codes how to read the Hdf5 file:

import matplotlib.pyplot as plt
file_name=self.root+'/'+str(index)+'.h5'
f=h5py.File(file_name,'r')

gt=f['gt'][:]
haze=f['haze'][:]
plt.subplot(1,2,1), plt.title('gt')
plt.imshow(gt)
plt.subplot(1,2,2),plt.title('haze')
plt.imshow(haze)
plt.show()

Citation

Acknowledgments

Thank all co-authors so much!

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FD-GAN: Generative adversarial Networks with Fusion-discriminator for Single Image Dehazing(AAAI'20)

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