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[CVPRW 2022] Delving into High-Quality Synthetic Face Occlusion Segmentation Datasets

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Delving into High-Quality Synthetic Face Occlusion Segmentation Datasets

This repository provides the dataset and code for the following paper:

Delving into High-Quality Synthetic Face Occlusion Segmentation Datasets
Kenny T. R. Voo, Liming Jiang and Chen Change Loy
In CVPRW 2022.
Paper | Dataset

Abstract: This paper performs comprehensive analysis on datasets for occlusion-aware face segmentation, a task that is crucial for many downstream applications. The collection and annotation of such datasets are time-consuming and labor-intensive. Although some efforts have been made in synthetic data generation, the naturalistic aspect of data remains less explored. In our study, we propose two occlusion generation techniques, Naturalistic Occlusion Generation (NatOcc), for producing high-quality naturalistic synthetic occluded faces; and Random Occlusion Generation (RandOcc), a more general synthetic occluded data generation method. We empirically show the effectiveness and robustness of both methods, even for unseen occlusions. To facilitate model evaluation, we present two high-resolution real-world occluded face datasets with fine-grained annotations, RealOcc and RealOcc-Wild, featuring both careful alignment preprocessing and an in-the-wild setting for robustness test. We further conduct a comprehensive analysis on a newly introduced segmentation benchmark, offering insights for future exploration.

Updates

  • [06/2022] The code of NatOcc and RandOcc are released.
  • [04/2022] The RealOcc and RealOcc-Wild datasets are released.
  • [04/2022] This paper is accepted by CVPRW 2022.

Installation

Clone this repo:

git clone https://github.com/kennyvoo/face-occlusion-generation.git
cd face-occlusion-generation/

Dependencies:

All dependencies for defining the environment are provided in requirements.txt.
We recommend running this repository using Anaconda:

conda create -n occ-gen python=3.8
conda activate occ-gen
pip install -r requirements.txt
pip install -U git+https://github.com/albumentations-team/albumentations
#install pytorch before the following line
conda install -c conda-forge cupy

Please install PyTorch that matches your own CUDA version following https://pytorch.org/. Please install PyTorch before install cupy

Dataset Preparation

Please download the masks from this drive and the images from CelebAMask-HQ, 11k Hands and DTD.

The extracted and upsampled COCO objects images and masks can be found in this drive.

Please extract CelebAMask-HQ and 11k Hands images based on the splits found in drive.

Dataset Organization:


├── dataset
│   ├── CelebAMask-HQ-WO-Train_img
│   │   ├── {image}.jpg
|   ├── CelebAMask-HQ-WO-Train_mask
│   │   ├── {mask}.png
|   ├── DTD
│   │   ├── images
│   │   │   ├── {classA}
│   │   │   │   ├── {image}.jpg
│   │   │   ├── {classB}
│   │   │   │   ├── {image}.jpg
|   ├── 11k-hands_img
│   │   ├── {image}.jpg
|   ├── 11k-hands_mask
│   │   ├── {mask}.png
|   ├── object_image_sr
│   │   ├── {image}.jpg
|   ├── object_image_x4
│   │   ├── {mask}.png

Data Generation

Example script to generate NatOcc dataset

bash NatOcc.sh

Example script to generate RandOcc dataset

bash RandOcc.sh

Please modify/create the configs file in /configs accordingly.

  • RANDOCC : Choose between NatOcc or RandOcc. If False, NatOcc mode.
  • SOT : Specifies whether to use colour transfer via Sliced Optimal Transport
  • ROTATE_AROUND_CENTER : Rotate hands such that fingers always pointing toward the face.
  • OCCLUSION_MASK : If True, mask of occlussion will be saved. (For RainNet)

Result

Dataset Definition

Qualitative Result qualitative

Quantitative Result

quantitative

Todo

  • code release.
  • code optimization.

Citation

If you find this work useful for your research, please consider citing our paper:

@inproceedings{voo2022delving,
  title={Delving into High-Quality Synthetic Face Occlusion Segmentation Datasets},
  author={Voo, Kenny T. R. and Jiang, Liming and Loy, Chen Change},
  booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) Workshops},
  year={2022}
}

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