WHU-Helmet Dataset

Main web page of our group : http://3s.whu.edu.cn/ybs/index.htm

If you use the dataset, please cite our paper:

@article{li2023whu, title={WHU-Helmet: A helmet-based multi-sensor SLAM dataset for the evaluation of real-time 3D mapping in large-scale GNSS-denied environments}, author={Li, Jianping and Wu, Weitong and Yang, Bisheng and Zou, Xianghong and Yang, Yandi and Zhao, Xin and Dong, Zhen}, journal={IEEE Transactions on Geoscience and Remote Sensing}, year={2023}, publisher={IEEE} }

Paper Link: WHU-Helmet: A helmet-based multi-sensor SLAM dataset for the evaluation of real-time 3D mapping in large-scale GNSS-denied environments

1. Hardware configuration

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Mechanical structure design of the WHU-Helmet. (a) Head-mounted system. (b) Head-mounted system with a reference FOG (Fiber Optic Gyro) IMU.

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Coordinate systems involved in the Helmet system.

2. Dataset links and overview

Scenes Bag Links Scanner Type
1_forest 1_forest_2021-12-06-11-10-14.7z.001 ; 1_forest_2021-12-06-11-10-14.7z.002 Livox AVIA
2_mountain 2_mountain_2021-11-12-12-31-45.7z.001 ; 2_mountain_2021-11-12-12-31-45.7z.002 Livox Mid70
3.1_underground_tunnel 3.1_underground_tunnel_2021-11-14-10-21-01.7z.001 Livox Mid70
3.2_underground_park 3.2_underground_park_2021-12-29-15-05-33.7z.001 ; 3.3_underground_subway_2021-12-29-16-19-51.7z.001 Livox AVIA
3.3_underground_subway 3.3_underground_subway_2021-12-29-16-19-51.7z.001 ; 3.3_underground_subway_2021-12-29-16-19-51.7z.002 Livox AVIA
4_Infrustracture 4_Infrustracture_2021-11-14-09-18-30.7z.001 Livox Mid70
5.1_Heritage_library 5.1_Heritage_library_2021-11-10-16-03-20.bag Livox Mid70
5.2_Heritage_residence 5.2_Heritage_residence_2021-12-30-16-37-49.7z.001 Livox AVIA
6.1_roadside_campus 6.1_roadside_campus_2021-11-12-10-10-57.7z.001; 6.1_roadside_campus_2021-11-12-10-10-57.7z.002;6.1_roadside_campus_2021-11-12-10-10-57.7z.003 Livox Mid70
6.2_roadside_street 6.2_roadside_street_2021-12-29-11-12-17.7z.001; 6.2_roadside_street_2021-12-29-11-12-17.7z.002 Livox AVIA
6.3_roadside_mall 6.3_roadside_mall_2021-12-29-10-32-35.7z.001;6.3_roadside_mall_2021-12-29-10-32-35.7z.002 Livox AVIA

If you need GT files, please send us a E-mail with your organization information to (kafeiyin00@gmail.com).

2.1 Forest

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2.2 Mountain

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2.3 Underground

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2.4 Infrastructure

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2.5 Heritage

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2.6 Road side

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2.7 Calibration

we provide the extrinsic parameters for LiDAR-IMU,LiDAR-camera, and camera intrinsic parameters in the calibration folder.

The extrinsic parameters of LiDAR-IMU are calculated using the AFLI-Calib

Weitong Wu, Jianping Li, Chi Chen, Bisheng Yang,et al.,2023. AFLI-Calib: Robust LiDAR-IMU extrinsic self-calibration based on adaptive frame length LiDAR odometry. ISPRS Jouranl of Photogrammetry and Remote Sensing.199,157-181.https://doi.org/10.1016/j.isprsjprs.2023.04.004.

2.8 Run Dataset

Data preprocess (Important)

We provide the rosbag (link) for running. Before you play the bag, use the rosbag_edit.cpp to preprocess the data.

rosrun your_package_name rosbag_edit_node $input_rosbag_path $output_rosbag_path

Example for running [fast-lio2] (https://github.com/hku-mars/FAST_LIO)

In the config_file folder, We provide the config file for running fast-lio2. You can easily use it for running.

2.9 Evaluation of SOTA SLAM

2.9.1 Evaluation Tool and Criteria

We use evo to evaluate results with four metrics:

  • APE_Trans(m): Absolute pose error about translation.
  • APE_Angle(deg): Absolute pose error about angle.
  • RPE_Trans(m/frame): Relative pose error about translation.
  • RPE_Angle(deg/frame): Relative pose error about angle.

2.9.2 Results of SOTA Algorithm

We test our dataset using Fast_lio, LIO_Livox , LOAM_Livox and MULLS. The following are results: image