head.mp4
-
2024/05/05
: 🎉🎉🎉Sample training data on HuggingFace released. -
2024/05/02
: 🌟🌟🌟Training source code released #99. -
2024/04/28
: 👏👏👏Smooth SMPLs in Blender method released #96. -
2024/04/26
: 🚁Great Blender Adds-on CEB Studios for various SMPL process! -
2024/04/12
: ✨✨✨SMPL & Rendering scripts released! Champ your dance videos now💃🤸♂️🕺. See docs. -
2024/03/30
: 🚀🚀🚀Amazing ComfyUI Wrapper by community. Here is the video tutorial. Thanks to @kijai🥳 -
2024/03/27
: Cool Demo on replicate🌟. Thanks to @camenduru👏 -
2024/03/27
: Visit our roadmap🕒 to preview the future of Champ.
- System requirement: Ubuntu20.04/Windows 11, Cuda 12.1
- Tested GPUs: A100, RTX3090
Create conda environment:
conda create -n champ python=3.10
conda activate champ
Install packages with pip
pip install -r requirements.txt
Install packages with poetry
If you want to run this project on a Windows device, we strongly recommend to use
poetry
.
poetry install --no-root
The inference entrypoint script is ${PROJECT_ROOT}/inference.py
. Before testing your cases, there are two preparations need to be completed:
You can easily get all pretrained models required by inference from our HuggingFace repo.
Clone the the pretrained models into ${PROJECT_ROOT}/pretrained_models
directory by cmd below:
git lfs install
git clone https://huggingface.co/fudan-generative-ai/champ pretrained_models
Or you can download them separately from their source repo:
- Champ ckpts: Consist of denoising UNet, guidance encoders, Reference UNet, and motion module.
- StableDiffusion V1.5: Initialized and fine-tuned from Stable-Diffusion-v1-2. (Thanks to runwayml)
- sd-vae-ft-mse: Weights are intended to be used with the diffusers library. (Thanks to stablilityai)
- image_encoder: Fine-tuned from CompVis/stable-diffusion-v1-4-original to accept CLIP image embedding rather than text embeddings. (Thanks to lambdalabs)
Finally, these pretrained models should be organized as follows:
./pretrained_models/
|-- champ
| |-- denoising_unet.pth
| |-- guidance_encoder_depth.pth
| |-- guidance_encoder_dwpose.pth
| |-- guidance_encoder_normal.pth
| |-- guidance_encoder_semantic_map.pth
| |-- reference_unet.pth
| `-- motion_module.pth
|-- image_encoder
| |-- config.json
| `-- pytorch_model.bin
|-- sd-vae-ft-mse
| |-- config.json
| |-- diffusion_pytorch_model.bin
| `-- diffusion_pytorch_model.safetensors
`-- stable-diffusion-v1-5
|-- feature_extractor
| `-- preprocessor_config.json
|-- model_index.json
|-- unet
| |-- config.json
| `-- diffusion_pytorch_model.bin
`-- v1-inference.yaml
Guidance motion data which is produced via SMPL & Rendering is necessary when performing inference.
You can download our pre-rendered samples on our HuggingFace repo and place into ${PROJECT_ROOT}/example_data
directory:
git lfs install
git clone https://huggingface.co/datasets/fudan-generative-ai/champ_motions_example example_data
Or you can follow the SMPL & Rendering doc to produce your own motion datas.
Finally, the ${PROJECT_ROOT}/example_data
will be like this:
./example_data/
|-- motions/ # Directory includes motions per subfolder
| |-- motion-01/ # A motion sample
| | |-- depth/ # Depth frame sequance
| | |-- dwpose/ # Dwpose frame sequance
| | |-- mask/ # Mask frame sequance
| | |-- normal/ # Normal map frame sequance
| | `-- semantic_map/ # Semanic map frame sequance
| |-- motion-02/
| | |-- ...
| | `-- ...
| `-- motion-N/
| |-- ...
| `-- ...
`-- ref_images/ # Reference image samples(Optional)
|-- ref-01.png
|-- ...
`-- ref-N.png
Now we have all prepared models and motions in ${PROJECT_ROOT}/pretrained_models
and ${PROJECT_ROOT}/example_data
separately.
Here is the command for inference:
python inference.py --config configs/inference/inference.yaml
If using poetry
, command is
poetry run python inference.py --config configs/inference/inference.yaml
Animation results will be saved in ${PROJECT_ROOT}/results
folder. You can change the reference image or the guidance motion by modifying inference.yaml
.
The default motion-02 in inference.yaml
has about 250 frames, requires ~20GB VRAM.
Note: If your VRAM is insufficient, you can switch to a shorter motion sequence or cut out a segment from a long sequence. We provide a frame range selector in inference.yaml
, which you can replace with a list of [min_frame_index, max_frame_index]
to conveniently cut out a segment from the sequence.
The training process consists of two distinct stages. For more information, refer to the Training Section
in the paper on arXiv.
Prepare your own training videos with human motion (or use our sample training data on HuggingFace) and modify data.video_folder
value in training config yaml.
All training videos need to be processed into SMPL & DWPose format. Refer to the Data Process doc.
The directory structure will be like this:
/training_data/
|-- video01/ # A video data frame
| |-- depth/ # Depth frame sequance
| |-- dwpose/ # Dwpose frame sequance
| |-- mask/ # Mask frame sequance
| |-- normal/ # Normal map frame sequance
| `-- semantic_map/ # Semanic map frame sequance
|-- video02/
| |-- ...
| `-- ...
`-- videoN/
|-- ...
`-- ...
Select another small batch of data as the validation set, and modify the validation.ref_images
and validation.guidance_folders
roots in training config yaml.
To train the Champ model, use the following command:
# Run training script of stage1
accelerate launch train_s1.py --config configs/train/stage1.yaml
# Modify the `stage1_ckpt_dir` value in yaml and run training script of stage2
accelerate launch train_s2.py --config configs/train/stage2.yaml
Type | HuggingFace | ETA |
---|---|---|
Inference | SMPL motion samples | Thu Apr 18 2024 |
Training | Sample datasets for Training | Sun May 05 2024 |
Status | Milestone | ETA |
---|---|---|
✅ | Inference source code meet everyone on GitHub first time | Sun Mar 24 2024 |
✅ | Model and test data on Huggingface | Tue Mar 26 2024 |
✅ | Optimize dependencies and go well on Windows | Sun Mar 31 2024 |
✅ | Data preprocessing code release | Fri Apr 12 2024 |
✅ | Training code release | Thu May 02 2024 |
✅ | Sample of training data release on HuggingFace | Sun May 05 2024 |
✅ | Smoothing SMPL motion | Sun Apr 28 2024 |
🚀🚀🚀 | Gradio demo on HuggingFace | TBD |
If you find our work useful for your research, please consider citing the paper:
@inproceedings{zhu2024champ,
title={Champ: Controllable and Consistent Human Image Animation with 3D Parametric Guidance},
author={Shenhao Zhu and Junming Leo Chen and Zuozhuo Dai and Yinghui Xu and Xun Cao and Yao Yao and Hao Zhu and Siyu Zhu},
booktitle={European Conference on Computer Vision (ECCV)},
year={2024}
}
Multiple research positions are open at the Generative Vision Lab, Fudan University! Include:
- Research assistant
- Postdoctoral researcher
- PhD candidate
- Master students
Interested individuals are encouraged to contact us at siyuzhu@fudan.edu.cn for further information.