This repo is official PyTorch implementation of Camera Distance-aware Top-down Approach for 3D Multi-person Pose Estimation from a Single RGB Image (ICCV 2019). It contains RootNet part.

What this repo provides:

• PyTorch implementation of Camera Distance-aware Top-down Approach for 3D Multi-person Pose Estimation from a Single RGB Image (ICCV 2019).
• Flexible and simple code.
• Compatibility for most of the publicly available 2D and 3D, single and multi-person pose estimation datasets including Human3.6M, MPII, MS COCO 2017, MuCo-3DHP and MuPoTS-3D.
• Human pose estimation visualization code.

• PyTorch
• CUDA
• cuDNN
• Anaconda
• COCO API

This code is tested under Ubuntu 16.04, CUDA 9.0, cuDNN 7.1 environment with two NVIDIA 1080Ti GPUs.

Python 3.6.5 version with Anaconda 3 is used for development.

The ${POSE_ROOT} is described as below.

${POSE_ROOT}
|-- data
|-- common
|-- main
`-- output

• data contains data loading codes and soft links to images and annotations directories.
• common contains kernel codes for 3d multi-person pose estimation system.
• 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.

${POSE_ROOT}
|-- data
|-- |-- Human36M
|   `-- |-- bbox
|       |   |-- bbox_human36m_output.json
|       |-- images
|       `-- annotations
|-- |-- MPII
|   `-- |-- images
|       `-- annotations
|-- |-- MSCOCO
|   `-- |-- images
|       |   |-- train/
|       |   |-- val/
|       `-- annotations
|-- |-- MuCo
|   `-- |-- data
|       |   |-- augmented_set
|       |   |-- unaugmented_set
|       |   `-- MuCo-3DHP.json
`-- |-- MuPoTS
|   `-- |-- bbox
|       |   |-- bbox_mupots_output.json
|       |-- data
|       |   |-- MultiPersonTestSet
|       |   `-- MuPoTS-3D.json

• Download Human3.6M parsed data [images][annotations]
• Download MPII parsed data [images][annotations]
• Download MuCo parsed and composited data [images_1][images_2][annotations]
• Download MuPoTS parsed parsed data [images][annotations]
• All annotation files follow MS COCO format.
• If you want to add your own dataset, you have to convert it to MS COCO format.

You need to follow the directory structure of the output folder as below.

${POSE_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.

• In the main/config.py, you can change settings of the model including dataset to use, network backbone, and input size and so on.

In the main folder, run

python train.py --gpu 0-1

to train the network on the GPU 0,1.

If you want to continue experiment, run

python train.py --gpu 0-1 --continue

--gpu 0,1 can be used instead of --gpu 0-1.

Place trained model at the output/model_dump/.

In the main folder, run

python test.py --gpu 0-1 --test_epoch 20

to test the network on the GPU 0,1 with 20th epoch trained model. --gpu 0,1 can be used instead of --gpu 0-1.

Here I report the performance of the RootNet. Also, I provide bounding box estimations and trained models of the RootNet.

For the evaluation, you can run test.py or there are evaluation codes in Human36M and MuPoTS.

• Bounding box [H36M_protocol1][H36M_protocol2]
• Bounding box + 3D Human root coordinatees in camera space [H36M_protocol1][H36M_protocol2]
• RootNet model trained on H36M protocol 1 + MPII [model]
• RootNet model trained on H36M protocol 2 + MPII [model]

• Bounding box [MuPoTS-3D]
• Bounding box + 3D Human root coordinatees in camera space [MuPoTS-3D]
• RootNet model trained on MuCo-3DHP + MSCOCO [model]

We additionally provide estimated 3D human root coordinates in on the MSCOCO dataset. The coordinates are in 3D camera coordinate system, and focal lengths are set to 1500mm for both x and y axis. You can change focal length and corresponding distance using equation 2 or equation in supplementarial material of my paper

• Bounding box + 3D Human root coordinates in camera space [MSCOCO]

@InProceedings{Moon_2019_ICCV_3DMPPE,
author = {Moon, Gyeongsik and Chang, Juyong and Lee, Kyoung Mu},
title = {Camera Distance-aware Top-down Approach for 3D Multi-person Pose Estimation from a Single RGB Image},
booktitle = {The IEEE Conference on International Conference on Computer Vision (ICCV)},
year = {2019}
}