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BEVPlace++: Fast, Robust, and Lightweight LiDAR Global Localization for Unmanned Ground Vehicles

BEVPlace++ is a LiDAR-based global localization method. It projects point clouds into Bird's-eye View (BEV) images and generates global features with a rotation equivariant module and the NetVLAD. It sequentially performs place recognition and pose estimation to achieve complete global localization. Experiments show that BEVPlace++ significantly outperforms the state-of-the-art (SOTA) methods and generalizes well to previously unseen environments. BEVPlace++ will certainly benefit various applications, including loop closure detection, global localization, and SLAM. Please feel free to use and enjoy it!

More details can be found in our pre-print paper https://arxiv.org/pdf/2408.01841.

Results

Loop results on KITTI 08.

kitti08_loop_1.mp4

Global localization demo on NCLT.

globalloc.mp4

Quick Start

  1. Download the dataset from google drive. Unzip and move the files into the "data" directory.

  2. Create a conda environment and install Pytorch according to your Cuda version. Then install the dependencies by

pip install -r requirements.txt
  1. You can train and evaluate BEVPlace++ by simply running
python main.py --mode=train
python main.py --mode=test --load_from=/path/to/your/checkpoint/directory

Evaluate your own data

Organize your data following the description in data.md and customize your dataloader following kitti_dataset.py. Then evaluate the performance with the script main.py

News

  • 2024-08-04: BEVPlace++ is released. Compared to BEVPlace, it achieves complete 3DoF global localization.
  • 2023-08-31: Update the pre-trained weights and the bev dataset of KITTI to reproduce the numbers in the paper.
  • 2023-07-14: Our paper is accepted by ICCV 2023!
  • 2023-03-14: Initial version.
  • 2022-09-02: Our method ranked 2nd in the General Place Recognition Competition of ICRA 2022!

Cite

@misc{luo2024bevplacefastrobustlightweight,
      title={BEVPlace++: Fast, Robust, and Lightweight LiDAR Global Localization for Unmanned Ground Vehicles}, 
      author={Lun Luo and Si-Yuan Cao and Xiaorui Li and Jintao Xu and Rui Ai and Zhu Yu and Xieyuanli Chen},
      year={2024},
      eprint={2408.01841},
      archivePrefix={arXiv},
      primaryClass={cs.RO},
      url={https://arxiv.org/abs/2408.01841}, 
}
@INPROCEEDINGS{luo2023bevplace,
  author={Luo, Lun and Zheng, Shuhang and Li, Yixuan and Fan, Yongzhi and Yu, Beinan and Cao, Si-Yuan and Li, Junwei and Shen, Hui-Liang},
  booktitle={2023 IEEE/CVF International Conference on Computer Vision (ICCV)}, 
  title={BEVPlace: Learning LiDAR-based Place Recognition using Bird’s Eye View Images}, 
  year={2023},
  pages={8666-8675},
  doi={10.1109/ICCV51070.2023.00799}}

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A LiDAR-based complete global localization method.

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