This repository is the offical Pytorch implementation of HandOccNet: Occlusion-Robust 3D Hand Mesh Estimation Network (CVPR 2022). Below is the overall pipeline of HandOccNet.
- Install PyTorch and Python >= 3.7.4 and run
sh requirements.sh
. - Download
snapshot_demo.pth.tar
from here and place atdemo
folder. - Prepare
input.jpg
atdemo
folder. - Download
MANO_RIGHT.pkl
from here and place atcommon/utils/manopth/mano/models
. - Go to
demo
folder and editbbox
in here. - Run
python demo.py --gpu 0
if you want to run on gpu 0. - You can see
hand_bbox.png
,hand_image.png
, andoutput.obj
. - Run
python demo_fitting.py --gpu 0 --depth 0.5
if you want to get the hand mesh's translation from the camera. The depth argument is initialization for the optimization. - You can see
fitting_input_3d_mesh.json
that contains the translation and MANO parameters,fitting_input_3dmesh.obj
,fitting_input_2d_prediction.png
, andfitting_input_projection.png
.
The ${ROOT}
is described as below.
${ROOT}
|-- data
|-- demo
|-- common
|-- main
|-- output
data
contains data loading codes and soft links to images and annotations directories.demo
contains demo codes.common
contains kernel codes for HandOccNet.main
contains high-level codes for training or testing the network.output
contains log, trained models, visualized outputs, and test result.
You need to follow directory structure of the data
as below.
${ROOT}
|-- data
| |-- HO3D
| | |-- data
| | | |-- train
| | | | |-- ABF10
| | | | |-- ......
| | | |-- evaluation
| | | |-- annotations
| | | | |-- HO3D_train_data.json
| | | | |-- HO3D_evaluation_data.json
| |-- DEX_YCB
| | |-- data
| | | |-- 20200709-subject-01
| | | |-- ......
| | | |-- annotations
| | | | |--DEX_YCB_s0_train_data.json
| | | | |--DEX_YCB_s0_test_data.json
- Download HO3D(version 2) data and annotation files [data][annotation files]
- Download DexYCB data and annotation files [data][annotation files]
- For the MANO layer, I used manopth. The repo is already included in
common/utils/manopth
. - Download
MANO_RIGHT.pkl
from here and place atcommon/utils/manopth/mano/models
.
You need to follow the directory structure of the output
folder as below.
${ROOT}
|-- output
| |-- log
| |-- model_dump
| |-- result
| |-- vis
- Creating
output
folder as soft link form is recommended instead of folder form because it would take large storage capacity. log
folder contains training log file.model_dump
folder contains saved checkpoints for each epoch.result
folder contains final estimation files generated in the testing stage.vis
folder contains visualized results.
- Install PyTorch and Python >= 3.7.4 and run
sh requirements.sh
. - In the
main/config.py
, you can change settings of the model including dataset to use and input size and so on.
In the main
folder, set trainset in config.py
(as 'HO3D' or 'DEX_YCB') and run
python train.py --gpu 0-3
to train HandOccNet on the GPU 0,1,2,3. --gpu 0,1,2,3
can be used instead of --gpu 0-3
.
Place trained model at the output/model_dump/
.
In the main
folder, set testset in config.py
(as 'HO3D' or 'DEX_YCB') and run
python test.py --gpu 0-3 --test_epoch {test epoch}
to test HandOccNet on the GPU 0,1,2,3 with {test epoch}th epoch trained model. --gpu 0,1,2,3
can be used instead of --gpu 0-3
.
- For the HO3D dataset, pred{test epoch}.zip will be generated in
output/result
folder. You can upload it to the codalab challenge and see the results. - Our trained model can be downloaded from here
Here I report the performance of the HandOccNet.
@InProceedings{Park_2022_CVPR_HandOccNet,
author = {Park, JoonKyu and Oh, Yeonguk and Moon, Gyeongsik and Choi, Hongsuk and Lee, Kyoung Mu},
title = {HandOccNet: Occlusion-Robust 3D Hand Mesh Estimation Network},
booktitle = {Conference on Computer Vision and Pattern Recognition (CVPR)},
year = {2022}
}
For this project, we relied on research codes from: