marcoc2 / faceswap-GAN

A denoising autoencoder + adversarial losses and attention mechanisms for face swapping.

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faceswap-GAN

Adding Adversarial loss and perceptual loss (VGGface) to deepfakes'(reddit user) auto-encoder architecture.

Updates

Date    Update
2018-08-27     Colab support: A colab notebook for faceswap-GAN v2.2 is provided.
2018-07-25     Data preparation: Add a new notebook for video pre-processing in which MTCNN is used for face detection as well as face alignment.
2018-06-29     Model architecture: faceswap-GAN v2.2 now supports different output resolutions: 64x64, 128x128, and 256x256. Default RESOLUTION = 64 can be changed in the config cell of v2.2 notebook.
2018-06-25     New version: faceswap-GAN v2.2 has been released. The main improvements of v2.2 model are its capability of generating realistic and consistent eye movements (results are shown below, or Ctrl+F for eyes), as well as higher video quality with face alignment.
2018-06-06     Model architecture: Add a self-attention mechanism proposed in SAGAN into V2 GAN model. (Note: There is still no official code release for SAGAN, the implementation in this repo. could be wrong. We'll keep an eye on it.)

Google Colab support

Here is a playground notebook for faceswap-GAN v2.2 on Google Colab. Users can train their own model in the browser.

Descriptions

faceswap-GAN v2.2

  • FaceSwap_GAN_v2.2_train_test.ipynb

    • Notebook for model training of faceswap-GAN model version 2.2.
    • This notebook also provides code for still image transformation at the bottom.
    • Require additional training images generated through prep_binary_masks.ipynb.
  • FaceSwap_GAN_v2.2_video_conversion.ipynb

    • Notebook for video conversion of faceswap-GAN model version 2.2.
    • Face alignment using 5-points landmarks is introduced to video conversion.
  • prep_binary_masks.ipynb

    • Notebook for training data preprocessing. Output binary masks are save in ./binary_masks/faceA_eyes and ./binary_masks/faceB_eyes folders.
    • Require face_alignment package. (An alternative method for generating binary masks (not requiring face_alignment and dlib packages) can be found in MTCNN_video_face_detection_alignment.ipynb.)
  • MTCNN_video_face_detection_alignment.ipynb

    • This notebook performs face detection/alignment on the input video.
    • Detected faces are saved in ./faces/raw_faces and ./faces/aligned_faces for non-aligned/aligned results respectively.
    • Crude eyes binary masks are also generated and saved in ./faces/binary_masks_eyes. These binary masks can serve as a suboptimal alternative to masks generated through prep_binary_masks.ipynb.

Usage

  1. Run MTCNN_video_face_detection_alignment.ipynb to extract faces from videos. Manually move/rename the aligned face images into ./faceA/ or ./faceB/ folders.
  2. Run prep_binary_masks.ipynb to generate binary masks of training images.
    • You can skip this pre-processing step by (1) setting use_bm_eyes=False in the config cell of the train_test notebook, or (2) use low-quality binary masks generated in step 1.
  3. Run FaceSwap_GAN_v2.2_train_test.ipynb to train models.
  4. Run FaceSwap_GAN_v2.2_video_conversion.ipynb to create videos using the trained models in step 3.

Miscellaneous

Training data format

  • Face images are supposed to be in ./faceA/ or ./faceB/ folder for each taeget respectively.
  • Images will be resized to 256x256 during training.

Generative adversarial networks for face swapping

1. Architecture

enc_arch3d

dec_arch3d

dis_arch3d

2. Results

  • Improved output quality: Adversarial loss improves reconstruction quality of generated images. trump_cage

  • Additional results: This image shows 160 random results generated by v2 GAN with self-attention mechanism (image format: source -> mask -> transformed).

  • Evaluations: Evaluations of the output quality on Trump/Cage dataset can be found here.

The Trump/Cage images are obtained from the reddit user deepfakes' project on pastebin.com.

3. Features

  • VGGFace perceptual loss: Perceptual loss improves direction of eyeballs to be more realistic and consistent with input face. It also smoothes out artifacts in the segmentation mask, resulting higher output quality.

  • Attention mask: Model predicts an attention mask that helps on handling occlusion, eliminating artifacts, and producing natrual skin tone.

  • Configurable input/output resolution (v2.2): The model supports 64x64, 128x128, and 256x256 outupt resolutions.

  • Face tracking/alignment using MTCNN and Kalman filter in video conversion:

    • MTCNN is introduced for more stable detections and reliable face alignment (FA).
    • Kalman filter smoothen the bounding box positions over frames and eliminate jitter on the swapped face. comp_FA
  • Eyes-aware training: Introduce high reconstruction loss and edge loss in eyes area, which guides the model to generate realistic eyes.

Frequently asked questions and troubleshooting

1. How does it work?

  • The following illustration shows a very high-level and abstract (but not exactly the same) flowchart of the denoising autoencoder algorithm. The objective functions look like this. flow_chart

2. Previews look good, but it does not transform to the output videos?

  • Model performs its full potential when the input images are preprocessed with face alignment methods.
    • readme_note001

Requirements

Acknowledgments

Code borrows from tjwei, eriklindernoren, fchollet, keras-contrib and reddit user deepfakes' project. The generative network is adopted from CycleGAN. Weights and scripts of MTCNN are from FaceNet. Illustrations are from irasutoya.

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A denoising autoencoder + adversarial losses and attention mechanisms for face swapping.


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