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The PyTorch implementation for "Improving Robustness and Accuracy via Relative Information Encoding in 3D Human Pose Estimation" (ACM MM2021).

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PWC PWC

Improving Robustness and Accuracy via Relative Information Encoding in 3D Human Pose Estimation (ACM MM2021)

This is the implementation of the framework described in our paper: Improving Robustness and Accuracy via Relative Information Encoding in 3D Human Pose Estimation by Wenkang Shan, Haopeng Lu, Shanshe Wang, Xinfeng Zhang, and Wen Gao.

Quick start

Dependencies

Make sure you have the following dependencies installed:

  • PyTorch >= 0.4.0
  • NumPy
  • Matplotlib=3.1.0
  • FFmpeg (if you want to export MP4 videos)
  • ImageMagick (if you want to export GIFs)

Dataset

Our model is evaluated on Human3.6M and HumanEva-I datasets. We set up the Human3.6M dataset in the same way as VideoPose3D. You can download the processed data from here. data_2d_h36m_gt.npz is the ground truth of 2D keypoints. data_2d_h36m_cpn_ft_h36m_dbb.npz is the 2D keypoints obatined by CPN. data_3d_h36m.npz is the ground truth of 3D human joints. Put them in the ./data directory.

Evaluating our pretrained models

You can download our pretrained models from here. Put cpn_pretrained.bin and gt_pretrained.bin in the ./checkpoint directory. Both of the models are trained on Human3.6M dataset.

To evaluate the model trained on the ground truth of 2D keypoints, run:

python run.py -k gt --evaluate gt_pretrained.bin --stage 3 -lfd 256 

-lfd stands for "latent feature dimension". It controls the dimension of the latent features (including local features, global features, and fused features).

To evaluate the model trained on the 2D keypoints obtained by CPN, run:

python run.py -k cpn_ft_h36m_dbb --evaluate cpn_pretrained.bin --stage 3 -lfd 512 

It is more difficult to estimate 3D poses from the 2D keypoint detector (such as CPN). Therefore, we use more parameters in cpn_pretrained.bin than in gt_pretrained.bin. We set the dimension of the latent features to 512.

Training from scratch

To train a model using the proposed multi-stage optimization method, you can run the following commands step by step.

For the first stage, run:

python run.py -k gt --stage 1 -lfd 256 

This will train the encoders for 80 epochs. In this stage, the Feature Fusion Module (FFM) does not participate in the optimization process.

For the second stage, run:

python run.py -k gt --stage 2 -lfd 256 -p stage_1_your_best_model.bin

This will train the FFM for 80 epochs. The parameters of the encoders are loaded from the first stage and fixed.

For the third stage, run:

python run.py -k gt --stage 3 -lfd 256 -ft stage_2_your_best_model.bin -lr 0.0005 -e 80

This will finetune the whole framework for 80 epochs. You can train for more epochs to achieve better results.

Visualization

To generate visualizations of the model, run:

-k gt --evaluate gt_pretrained.bin --stage 3 -lfd 256 --render --viz-subject S11 --viz-action WalkDog --viz-camera 1 --viz-video "./s_11_act_15_subact_02_ca_02.mp4" --viz-output output.gif --viz-size 3 --viz-downsample 2 --viz-limit 300

You can get different results by changing the values of these arguments.

Citation

If you find this repo useful, please consider cite our paper:

@inproceedings{shan2021improving,
  title={Improving Robustness and Accuracy via Relative Information Encoding in 3D Human Pose Estimation},
  author={Shan, Wenkang and Lu, Haopeng and Wang, Shanshe and Zhang, Xinfeng and Gao, Wen},
  booktitle={Proceedings of the 29th ACM International Conference on Multimedia},
  pages={3446--3454},
  year={2021}
}

Acknowledgement

Our code refers to the following repositories.

We thank the authors for releasing their codes. If you use our code, please consider citing their works as well.

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