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REGTR: End-to-end Point Cloud Correspondences with Transformers

This repository contains the source code for REGTR. REGTR utilizes multiple transformer attention layers to directly predict each downsampled point's corresponding location in the other point cloud. Unlike typical correspondence-based registration algorithms, the predicted correspondences are clean and do not require an additional RANSAC step. This results in a fast, yet accurate registration.

REGTR Network Architecture

If you find this useful, please cite:

@inproceedings{yew2022regtr,
  title={REGTR: End-to-end Point Cloud Correspondences with Transformers},
  author={Yew, Zi Jian and Lee, Gim hee},
  booktitle={CVPR},
  year={2022},
}

Dataset environment

Our model is trained with the following environment:

Other required packages can be installed using pip: pip install -r src/requirements.txt.

Data and Preparation

Follow the following instructions to download each dataset (as necessary). Your folder should then look like this:

.
├── data/
    ├── indoor/
        ├── test/
        |   ├── 7-scenes-redkitchen/
        |   |   ├── cloud_bin_0.info.txt
        |   |   ├── cloud_bin_0.pth
        |   |   ├── ...
        |   ├── ...
        ├── train/
        |   ├── 7-scenes-chess/
        |   |   ├── cloud_bin_0.info.txt
        |   |   ├── cloud_bin_0.pth
        |   |   ├── ...
        ├── test_3DLoMatch_pairs-overlapmask.h5
        ├── test_3DMatch_pairs-overlapmask.h5
        ├── train_pairs-overlapmask.h5
        └── val_pairs-overlapmask.h5
    └── modelnet40_ply_hdf5_2048
        ├── ply_data_test0.h5
        ├── ply_data_test1.h5
        ├── ...
├── src/
└── Readme.md

3DMatch

Download the processed dataset from Predator project site, and place them into ../data.

Then for efficiency, it is recommended to pre-compute the overlapping points (used for computing the overlap loss). You can do this by running the following from the src/ directory:

python data_processing/compute_overlap_3dmatch.py

ModelNet

Download the PointNet-processed dataset from here, and place it into ../data.

Pretrained models

You can download our trained models here. Unzip the files into the trained_models/.

Demo

We provide a simple demo script demo.py that loads our model and checkpoints, registers 2 point clouds, and visualizes the result. Simply download the pretrained models and run the following from the src/ directory:

python demo.py --example 0  # choose from 0 - 4 (see code for details)

Press 'q' to end the visualization and exit. Refer the documentation for visualize_result() for explanation of the visualization.

Inference/Evaluation

The following code in the src/ directory performs evaluation using the pretrained checkpoints as provided above; change the checkpoint paths accordingly if you're using your own trained models. Note that due to non-determinism from the neighborhood computation during our GPU-based KPConv processing, the results will differ slightly (e.g. mean registration recall may differ by around +/- 0.2%) between each run.

3DMatch / 3DLoMatch

This will run inference and compute the evaluation metrics used in Predator (registration success of <20cm).

# 3DMatch
python test.py --dev --resume ../trained_models/3dmatch/ckpt/model-best.pth --benchmark 3DMatch

# 3DLoMatch
python test.py --dev --resume ../trained_models/3dmatch/ckpt/model-best.pth --benchmark 3DLoMatch

ModelNet

# ModelNet
python test.py --dev --resume ../trained_models/modelnet/ckpt/model-best.pth --benchmark ModelNet

# ModelLoNet
python test.py --dev --resume ../trained_models/modelnet/ckpt/model-best.pth --benchmark ModelNet

Training

Run the following commands from the src/ directory to train the network.

3DMatch (Takes ~2.5 days on a Titan RTX)

python train.py --config conf/3dmatch.yaml

ModelNet (Takes <2 days on a Titan RTX)

python train.py --config conf/modelnet.yaml

Acknowledgements

We would like to thank the authors for Predator, D3Feat, KPConv, DETR for making their source codes public.

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