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expose

ExPose

Introduction

We provide the config files for ExPose: Monocular Expressive Body Regression through Body-Driven Attention.

@inproceedings{ExPose:2020,
  title = {Monocular Expressive Body Regression through Body-Driven Attention},
  author = {Choutas, Vasileios and Pavlakos, Georgios and Bolkart, Timo and Tzionas, Dimitrios and Black, Michael J.},
  booktitle = {European Conference on Computer Vision (ECCV)},
  pages = {20--40},
  year = {2020},
  url = {https://expose.is.tue.mpg.de}
}

Notes

As for pretrained model (hrnet_hmr_expose_body.pth). You can download it from here and change the path of pretrained model in the config. You can also pretrain the model using hrnet_hmr_expose_body.py.

As for pretrained model (resnet18_hmr_expose_face.pth). You can download it from here and change the path of pretrained model in the config. You can also pretrain the model using resnet18_hmr_expose_face.py.

As for pretrained model (resnet18_hmr_expose_hand.pth). You can download it from here and change the path of pretrained model in the config. You can also pretrain the model using resnet18_hmr_expose_hand.py.

Download the above resources and arrange them in the following file structure:

mmhuman3d
├── mmhuman3d
├── docs
├── tests
├── tools
├── configs
└── data
    ├── body_models
    │   ├── all_means.pkl
    │   ├── J_regressor_h36m.npy
    │   ├── flame
    │   │   ├── FLAME_NEUTRAL.pkl
    │   │   ├── flame_dynamic_embedding.npy
    │   │   └── flame_static_embedding.npy
    │   ├── mano
    │   │   └── MANO_RIGHT.pkl
    │   ├── smpl
    │   │   ├── SMPL_FEMALE.pkl
    │   │   ├── SMPL_MALE.pkl
    │   │   └── SMPL_NEUTRAL.pkl
    │   └── smplx
    │       ├── all_means.pkl
    │       ├── MANO_SMPLX_vertex_ids.pkl
    │       ├── shape_mean.npy
    │       ├── SMPL-X__FLAME_vertex_ids.npy
    │       ├── SMPLX_to_J14.npy
    │       └── SMPLX_NEUTRAL.pkl
    ├── pretrained_models
    │   ├── hrnet_pretrain.pth
    │   ├── resnet18.pth
    │   ├── hrnet_hmr_expose_body.pth
    │   ├── resnet18_hmr_expose_face.pth
    │   └── resnet18_hmr_expose_hand.pth
    ├── preprocessed_datasets
    │   ├── curated_fits_train.npz
    │   ├── ehf_val.npz
    │   ├── ffhq_flame_train.npz
    │   ├── freihand_test.npz
    │   ├── freihand_train.npz
    │   ├── freihand_val.npz
    │   ├── h36m_smplx_train.npz
    │   ├── pw3d_test.npz
    │   ├── spin_smplx_train.npz
    │   └── stirling_ESRC3D_HQ.npz
    └── datasets
        ├── 3DPW
        ├── coco
        ├── EHF
        ├── ExPose_curated_fits
        │   └── train.npz
        ├── ffhq
        │   ├── ffhq_annotations.npz
        │   └── ffhq_global_images_1024
        ├── FreiHand
        ├── h36m
        ├── lsp
        │   ├── lsp_dataset_original
        │   └── lspet
        ├── mpii
        ├── spin_in_smplx
        │   ├── coco.npz
        │   ├── lsp.npz
        │   ├── lspet.npz
        │   └── mpii.npz
        └── stirling
            ├── annotations
            ├── F_3D_N
            ├── M_3D_N
            └── Subset_2D_FG2018

Results and Models

We evaluate hrnet_hmr_expose_body on 3DPW. Values are MPJPE/PA-MPJPE.

Config 3DPW Download
hrnet_hmr_expose_body.py 92.59 / 60.43 model | log

We evaluate resnet18_hmr_expose_face on Stirling/ESRC 3D. Values are 3DRMSE.

Config Stirling/ESRC 3D Download
resnet18_hmr_expose_face.py 2.40 model | log

We evaluate resnet18_hmr_expose_hand on FreiHand. Values are PA-MPJPE/PA-PVE.

Config FreiHand Download
resnet18_hmr_expose_hand.py 10.03 / 9.61 model | log

We evaluate ExPose on EHF. Values are BODY PA-MPJPE/RIGHT_HAND PA-MPJPE/LEFT_HAND PA-MPJPE/PA-PVE/RIGHT_HAND PA-PVE/LEFT_HAND PA-PVE/FACE PA-PVE.

Config EHF Download
expose.py 55.70 / 14.6 / 14.4/ 56.65 / 14.6 / 14.5 / 6.90 model