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Official implementation of Fast End-to-End Trainable Guided Filter.
Faster, Better and Lighter for image processing and dense prediction.
DeepGuidedFilter is the author's implementation of the deep learning building block for joint upsampling described in:
Fast End-to-End Trainable Guided Filter
Huikai Wu, Shuai Zheng, Junge Zhang, Kaiqi Huang
CVPR 2018
Given a reference image pair in high-resolution and low-resolution, our algorithm generates high-resolution target from the low-resolution input. Through joint training with CNNs, our algorithm achieves the state-of-the-art performance while runs 10-100 times faster.
Contact: Hui-Kai Wu (huikaiwu@icloud.com)
- Download source code from GitHub.
git clone https://github.com/wuhuikai/DeepGuidedFilter cd DeepGuidedFilter && git checkout release
- Install dependencies (PyTorch version).
conda install opencv conda install pytorch=0.2.0 cuda80 -c soumith pip install -r requirements.txt
- (Optional) Install dependencies for MonoDepth (Tensorflow version).
cd ComputerVision/MonoDepth pip install -r requirements.txt
cd ImageProcessing/DeepGuidedFilteringNetwork
python predict.py --task auto_ps \
--img_path ../../images/auto_ps.jpg \
--save_folder . \
--model deep_guided_filter_advanced \
--low_size 64 \
--gpu 0See Here or python predict.py -h for more details.
- Enter the directory.
cd ComputerVision/Deeplab-Resnet - Download the pretrained model [Google Drive|BaiduYunPan].
- Run it now !
python predict_dgf.py --img_path ../../images/segmentation.jpg --snapshots [MODEL_PATH]
Note:
- Result is in
../../images. - Run
python predict_dgf.py -hfor more details.
- Enter the directory.
cd ComputerVision/Saliency_DSS - Download the pretrained model [Google Drive|BaiduYunPan].
- Try it now !
python predict.py --im_path ../../images/saliency.jpg \ --netG [MODEL_PATH] \ --thres 161 \ --dgf --nn_dgf \ --post_sigmoid --cuda
Note:
- Result is in
../../images. - See Here or
python predict.py -hfor more details.
- Enter the directory.
cd ComputerVision/MonoDepth - Download and Unzip Pretrained Model [Google Drive|BaiduYunPan]
- Run on an Image !
python monodepth_simple.py --image_path ../../images/depth.jpg --checkpoint_path [MODEL_PATH] --guided_filter
Note:
- Result is in
../../images. - See Here or
python monodepth_simple.py -hfor more details.
- PyTorch Version
pip install guided-filter-pytorch
- Tensorflow Version
pip install guided-filter-tf
- PyTorch Version
from guided_filter_pytorch.guided_filter import FastGuidedFilter hr_y = FastGuidedFilter(r, eps)(lr_x, lr_y, hr_x)
from guided_filter_pytorch.guided_filter import GuidedFilter hr_y = GuidedFilter(r, eps)(hr_x, init_hr_y)
- Tensorflow Version
from guided_filter_tf.guided_filter import fast_guided_filter hr_y = fast_guided_filter(lr_x, lr_y, hr_x, r, eps, nhwc)
from guided_filter_tf.guided_filter import guided_filter hr_y = guided_filter(hr_x, init_hr_y, r, eps, nhwc)
git checkout master
conda install opencv
conda install pytorch=0.2.0 cuda80 -c soumith
pip install -r requirements.txt
# (Optional) For MonoDepth (TF Version).
pip install -r ComputerVision/MonoDepth/requirements.txt - Image Processing
- Semantic Segmentation with Deeplab-Resnet
- Saliency Detection with DSS
- Monocular Depth Estimation (TensorFlow version)
@inproceedings{wu2017fast,
title = {Fast End-to-End Trainable Guided Filter},
author = {Wu, Huikai and Zheng, Shuai and Zhang, Junge and Huang, Kaiqi},
booktitle = {CVPR},
year = {2018}
}