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PVNet: Pixel-wise Voting Network for 6DoF Pose Estimation

introduction

PVNet: Pixel-wise Voting Network for 6DoF Pose Estimation
Sida Peng, Yuan Liu, Qixing Huang, Xiaowei Zhou, Hujun Bao
CVPR 2019 oral
Project Page

Any questions or discussions are welcomed!

Introduction

Thanks Haotong Lin for providing the clean version of PVNet and reproducing the results.

The structure of this project is described in project_structure.md.

Installation

  1. Set up the python environment:
    conda create -n pvnet python=3.7
    conda activate pvnet
    
    # install torch 1.1 built from cuda 9.0
    pip install torch==1.1.0 -f https://download.pytorch.org/whl/cu90/stable
    
    pip install Cython==0.28.2
    sudo apt-get install libglfw3-dev libglfw3
    pip install -r requirements.txt
    
  2. Compile cuda extensions under lib/csrc:
    ROOT=/path/to/clean-pvnet
    cd $ROOT/lib/csrc
    export CUDA_HOME="/usr/local/cuda-9.0"
    cd dcn_v2
    python setup.py build_ext --inplace
    cd ../ransac_voting
    python setup.py build_ext --inplace
    cd ../nn
    python setup.py build_ext --inplace
    cd ../fps
    python setup.py build_ext --inplace
    
    # If you want to use the uncertainty-driven PnP
    cd ../uncertainty_pnp
    sudo apt-get install libgoogle-glog-dev
    sudo apt-get install libsuitesparse-dev
    sudo apt-get install libatlas-base-dev
    python setup.py build_ext --inplace
    
  3. Set up datasets:
    ROOT=/path/to/clean-pvnet
    cd $ROOT/data
    ln -s /path/to/linemod linemod
    ln -s /path/to/linemod_orig linemod_orig
    ln -s /path/to/occlusion_linemod occlusion_linemod
    
    # the following is used for tless
    ln -s /path/to/tless tless
    ln -s /path/to/cache cache
    ln -s /path/to/SUN2012pascalformat sun
    

Download datasets which are formatted for this project:

  1. linemod
  2. linemod_orig: The dataset includes the depth for each image.
  3. occlusion linemod
  4. truncation linemod: Check TRUNCATION_LINEMOD.md for the information about the Truncation LINEMOD dataset.
  5. Tless: cat tlessa* | tar xvf - -C ..
  6. Tless cache data: It is used for training and testing on Tless.
  7. SUN2012pascalformat

Testing

Testing on Linemod

We provide the pretrained models of objects on Linemod, which can be found at here.

Take the testing on cat as an example.

  1. Prepare the data related to cat:
    python run.py --type linemod cls_type cat
    
  2. Download the pretrained model of cat and put it to $ROOT/data/model/pvnet/cat/199.pth.
  3. Test:
    python run.py --type evaluate --cfg_file configs/linemod.yaml model cat cls_type cat
    python run.py --type evaluate --cfg_file configs/linemod.yaml test.dataset LinemodOccTest model cat cls_type cat
    
  4. Test with icp:
    python run.py --type evaluate --cfg_file configs/linemod.yaml model cat cls_type cat test.icp True
    python run.py --type evaluate --cfg_file configs/linemod.yaml test.dataset LinemodOccTest model cat cls_type cat test.icp True
    
  5. Test with the uncertainty-driven PnP:
    export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:./lib/csrc/uncertainty_pnp/lib
    python run.py --type evaluate --cfg_file configs/linemod.yaml model cat cls_type cat test.un_pnp True
    python run.py --type evaluate --cfg_file configs/linemod.yaml test.dataset LinemodOccTest model cat cls_type cat test.un_pnp True
    

Testing on Tless

We provide the pretrained models of objects on Tless, which can be found at here.

  1. Download the pretrained models and put them to $ROOT/data/model/pvnet/.
  2. Test:
    python run.py --type evaluate --cfg_file configs/tless/tless_01.yaml
    # or
    python run.py --type evaluate --cfg_file configs/tless/tless_01.yaml test.vsd True
    

Visualization

Visualization on Linemod

Take the cat as an example.

  1. Prepare the data related to cat:
    python run.py --type linemod cls_type cat
    
  2. Download the pretrained model of cat and put it to $ROOT/data/model/pvnet/cat/199.pth.
  3. Visualize:
    python run.py --type visualize --cfg_file configs/linemod.yaml model cat
    

If setup correctly, the output will look like

cat

Visualization on Tless

Visualize:

python run.py --type visualize --cfg_file configs/tless/tless_01.yaml
# or
python run.py --type visualize --cfg_file configs/tless/tless_01.yaml test.det_gt True

Training

Training on Linemod

  1. Prepare the data related to cat:
    python run.py --type linemod cls_type cat
    
  2. Train:
    python train_net.py --cfg_file configs/linemod.yaml model mycat cls_type cat
    

The training parameters can be found in project_structure.md.

Training on Tless

Train:

python train_net.py --cfg_file configs/tless/tless_01.yaml

Tensorboard

tensorboard --logdir data/record/pvnet

If setup correctly, the output will look like

tensorboard

Training on the custom object

An example dataset can be downloaded at here.

  1. Create a dataset using https://github.com/F2Wang/ObjectDatasetTools
  2. Organize the dataset as the following structure:
    ├── /path/to/dataset
    │   ├── model.ply
    │   ├── camera.txt
    │   ├── diameter.txt  // the object diameter, whose unit is meter
    │   ├── rgb/
    │   │   ├── 0.jpg
    │   │   ├── ...
    │   │   ├── 1234.jpg
    │   │   ├── ...
    │   ├── mask/
    │   │   ├── 0.png
    │   │   ├── ...
    │   │   ├── 1234.png
    │   │   ├── ...
    │   ├── pose/
    │   │   ├── pose0.npy
    │   │   ├── ...
    │   │   ├── pose1234.npy
    │   │   ├── ...
    │   │   └──
    
  3. Create a soft link pointing to the dataset:
    ln -s /path/to/custom_dataset data/custom
    
  4. Process the dataset:
    python run.py --type custom
    
  5. Train:
    python train_net.py --cfg_file configs/custom.yaml train.batch_size 4
    
  6. Watch the training curve:
    tensorboard --logdir data/record/pvnet
    
  7. Visualize:
    python run.py --type visualize --cfg_file configs/custom.yaml
    
  8. Test:
    python run.py --type evaluate --cfg_file configs/custom.yaml
    

An example dataset can be downloaded at here.

Citation

If you find this code useful for your research, please use the following BibTeX entry.

@inproceedings{peng2019pvnet,
  title={PVNet: Pixel-wise Voting Network for 6DoF Pose Estimation},
  author={Peng, Sida and Liu, Yuan and Huang, Qixing and Zhou, Xiaowei and Bao, Hujun},
  booktitle={CVPR},
  year={2019}
}

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