This is the demo code for the paper Coarse-to-Fine Volumetric Prediction for Single-Image 3D Human Pose. Please follow the links to read the paper and visit the corresponding project page.

For the training code please visit this repository.

We provide code to test our model on Human3.6M. Please follow the instructions below to setup and use our code. The typical procedure is 1) apply the ConvNet model using a torch script through command line and then 2) run a MATLAB script (from folder matlab) for visualization or evaluation. To run this code, make sure the following are installed:

• MATLAB
• Torch7
• hdf5
• cudnn

We provide a Coarse-to-Fine Volumetric prediction model pretrained on Human3.6M. To get the model and other relevant data in the expected folders, please run the following script:

bash init.sh

Also, if you want to evaluate our approach on the whole set of images for Human3.6M, please run the following script to get all the relevant data (be careful, since the size is over 8GB)

bash data.sh

We have provided a sample of Human3.6M images, following previous work. You can apply our model on this sample by running the command:

th main.lua h36m-sample

Then, to visualize the output, you can use the MATLAB script:

demoH36M.m

If you want to reproduce the results of our paper for Human3.6M, you need to download the full set of images we used for testing, by running the script data.sh as indicated above. These images are extracted from the videos of the original dataset, and correspond to the images used for testing by the most typical protocol. Please check the file:

data/h36m/annot/valid_images.txt

for the correspondence of images with the original videos. The filename protocol we follow is:

S[subject number]_[Action Name].[Camera Name]_[Frame Number].jpg

An example for Subject 5, performing action Eating (iteration 1), when we consider camera name '55011271' and frame 321, is:

S5_Eating_1.55011271_000321.jpg

Having downloaded the necessary images, to apply our model on the whole set of Human3.6M images, you can run:

th main.lua h36m

Then, to conclude the evaluation, you need to run the next MATLAB script:

evalH36M.m

This will print the output in a results.txt file.

If you find this code useful for your research, please consider citing the following paper:

@Inproceedings{pavlakos17volumetric,
  Title          = {Coarse-to-Fine Volumetric Prediction for Single-Image 3{D} Human Pose},
  Author         = {Pavlakos, Georgios and Zhou, Xiaowei and Derpanis, Konstantinos G and Daniilidis, Kostas},
  Booktitle      = {Computer Vision and Pattern Recognition (CVPR)},
  Year           = {2017}
}

This code follows closely the released code for the Stacked Hourglass networks by Alejandro Newell. If you use this code, please consider citing the respective paper.