Requirements:
- OpenCV (on Ubuntu, e.g., install libopencv-dev and python-opencv).
- SMPL (download at http://smpl.is.tue.mpg.de/downloads) and unzip to a place of your choice.
- OpenDR (just run
pip install opendr
, unfortunately can't be done automatically with the setuptools requirements. - If you want to train a segmentation model, Deeplab V2
(https://bitbucket.org/aquariusjay/deeplab-public-ver2) with a minimal patch
applied that can be found in the subdirectory
patches
, to enable on the fly mirroring of the segmented images. Since I didn't use the MATLAB interface and did not care about fixing related errors, I just deletedsrc/caffe/layers/mat_{read,write}_layer.cpp
as well assrc/caffe/util/matio_io.cpp
and built with-DWITH_matlab=Off
. - If you want to train a pose model, the Deepercut caffe (https://github.com/eldar/deepcut-cnn).
- If you want to get deepercut-cnn predictions, download the deepercut .caffemodel file and place it in models/pose/deepercut.caffemodel.
- Edit the file
config.py
to set up the paths.
The rest of the requirements is then automatically installed when running:
python setup.py develop
For each of the tasks we described, there is one subfolder with the related
executables. All files that are being used for training or testing models are
executable and provide a full synposis when run with the --help
option. In the
respective tools
subfolder for each task, there is a create_dataset.py
script to summarize the data in the proper formats. This must be usually run
before the training script. The models
folder contains pretrained models and
infos, patches
a patch for deeplab caffe, tests
some Python tests and
up_tools
some Python tools that are shared between modalities.
There is a Docker image available that has been created by TheWebMonks here (not affiliated with the authors): https://github.com/TheWebMonks/demo-2d3d .
The adjusted SMPLify code to fit bodies to 91 keypoints is located in the folder
3dfit
. It can be used for 14 or 91 keypoints. Use the script 3dfit/render.py
to render a fitted body.
The relevant files are in the folder direct3d
. Run
run_partforest_training.sh
to train all regressors. After that, you can use
bodyfit.py
to get predictions from estimated keypoints of the 91 keypoint pose
predictor.
The pose
folder containes infrastructure for 91 keypoint pose prediction. Use
the script pose/tools/create_dataset.py
with a dataset name of your choice and
a target person size of 500 pixels to create the pose data from UP-3D,
alternatively download it from our website.
Configure a model by creating the model configuration folder
pose/training/config/modelname
by cloning the pose
model. Then you can run
run.sh {train,test,evaluate,trfull,tefull,evfull} modelname
to run training,
testing or evaluation on either the reduced training set with the held-out
validation set as test data or the full training set and real test data. We
initialized our training from the original Resnet models
(https://github.com/KaimingHe/deep-residual-networks). You can do so by
downloading the model and saving it as
pose/training/config/modelname/init.caffemodel
.
The pose.py
script will produce a pose prediction for an image. It assumes
that a model with name pose
has been trained (or downloaded). We normalize the
training images w.r.t. person size, that's why the model works best for images
with a rough person height of 500 pixels. Multiple people are not taken into
account; for every joint the arg max
position is used over the full image.
The folder setup is just as for the keypoint estimation: use
segmentation/tools/create_dataset.py
to create a segmentation dataset from the
UP-3D data or download it (again, we used target person size 500). Then use
run.sh {train,test,evaluate,trfull,tefull,evfull} modelname
as described above
to create your models. The segmentation.py
script can be used to get
segmentation results for the model named segmentation
from and image. We
initialized our models from the Deeplab trained models available
here. Move the
model file to segmentation/training/modelname/init.caffemodel
.
You can find more information on the website. If you use this code for your research, please consider citing us:
@inproceedings{Lassner:UP:2017,
title = {Unite the People: Closing the Loop Between 3D and 2D Human Representations},
author = {Lassner, Christoph and Romero, Javier and Kiefel, Martin and Bogo, Federica and Black, Michael J. and Gehler, Peter V.},
booktitle = {Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
month = jul,
year = {2017},
url = {http://up.is.tuebingen.mpg.de},
month_numeric = {7}
}
License: Creative Commons Non-Commercial 4.0.
The code for 3D fitting is based on the SMPLify
code. Parts of the files in the folder up_tools
(capsule_ch.py
,
capsule_man.py
, max_mixture_prior.py
, robustifiers.py
,
sphere_collisions.py
) as well as the model
models/3D/basicModel_neutral_lbs_10_207_0_v1.0.0.pkl
fall under the SMPLify
license conditions.