I modified code from https://github.com/akanazawa/hmr . I added 2D-to-3D color mapping for my human matching paper at Here, and you are welcomed to check out them.
By defualt, I removed mesh (triangle faces) information for fast data loading. If you want to preserve the mesh and visualize the 3D data, you could use the
python demo_bg.py --img_path ../Market/pytorch/gallery/1026/1026_c1s6_038571_06.jpg #please change to your image pathThe output 3D data is test.obj. You could use open3d to visualize it.
If you has one MacBook, you could visualize the test.obj in the folder.
The original paper is
Angjoo Kanazawa, Michael J. Black, David W. Jacobs, Jitendra Malik 'End-to-end Recovery of Human Shape and Pose' CVPR 2018
and my paper is
Zhedong Zheng, Nenggan Zheng and Yi Yang 'Parameter-Efficient Person Re-identification in the 3D Space' ArXiv 2021
- Python 2.7
- TensorFlow tested on version 1.3, demo alone runs with TF 1.12
conda create --name hmr python=2.7
conda activate hmr
pip install numpy
pip install -r requirements.txt
With GPU:
conda install tensorflow-gpu==1.11.0
pip install open3d
Without GPU:
conda install tensorflow==1.11.0
pip install open3d
Please check the datapath before generation.
python generate_3DMarket_bg.py
python generate_3DDuke_bg.py
python generate_3DMSMT_bg.pybaseline without background
python generate_3DMarket.py- Download the pre-trained models
wget https://people.eecs.berkeley.edu/~kanazawa/cachedir/hmr/models.tar.gz && tar -xf models.tar.gz
- Run the demo
python -m demo --img_path data/coco1.png
python -m demo --img_path data/im1954.jpg
Images should be tightly cropped, where the height of the person is roughly 150px.
On images that are not tightly cropped, you can run
openpose and supply
its output json (run it with --write_json option).
When json_path is specified, the demo will compute the right scale and bbox center to run HMR:
python -m demo --img_path data/random.jpg --json_path data/random_keypoints.json
(The demo only runs on the most confident bounding box, see src/util/openpose.py:get_bbox)
Please see the doc/train.md!
If you use this code for your research, please consider citing:
@inProceedings{kanazawaHMR18,
title={End-to-end Recovery of Human Shape and Pose},
author = {Angjoo Kanazawa
and Michael J. Black
and David W. Jacobs
and Jitendra Malik},
booktitle={Computer Vision and Pattern Regognition (CVPR)},
year={2018}
}
Dawars has created a docker image for this project: https://hub.docker.com/r/dawars/hmr/
MandyMo has implemented a pytorch version of the repo: https://github.com/MandyMo/pytorch_HMR.git
Dene33 has made a .ipynb for Google Colab that takes video as input and returns .bvh animation! https://github.com/Dene33/video_to_bvh
I have not tested them, but the contributions are super cool! Thank you!!