• Techrxiv
• IEEE

00	02	03

04	05	07

These trajectories are not suitable for hand-eye calibration because of lack of adequent rotations around at least two directions (only in yaw). Other hybrid methods may also suffer from the bad initial extrinsic estimation from hand-eye calibration. We believe this proposed method offers a valuable tool to resolve this problem.

• rotation units: degree
• translation units: cm
• Accuracy reserved to 0.01

• Examples of Quanlitative Results

Seq	Predicted	Ground-truth
00
02
03
04
05
07

More recent version would be OK.

• Eigen 3 (libeigen3-dev)
• OpenMP (libomp-dev)
• OpenCV 4.x
• Pangolin (visual tools for ORB_SLAM2)
• g2o 2023 (-DG2O_USE_OPENMP=ON)
• Open3D (Point Cloud IO, ICP)
• Nomad (Global Optimization Algorithm)

• Copy Thirdparty and Vocabulary directories to src/orb_slam/
  Troubleshooting

  Note that the implementation of ORB_SLAM2 in our repo is different from the original one, so DO NOT copy the whole ORB_SLAM2 repo to replace our directory
• Build and Compile: cd build && cmake .. -Wno-dev && make -j
  TroubleShooting

  If you have installed g2o through ROS (if you have ROS packages like `base_local_planner`/`teb_local_planner`/`mpc_local_planner`), please exclude it from LD_LIBRARY_PATH environment variable, or `source config/settings.sh`.
• Argparse Support (Acknowledge argparse ) : use -h or --help for each executable cpp file to view help.

Our algorithm requires 3D visual map (scaleless), 3D pointcloud map, 2D feature points for each frame, relative poses of cameras and LiDAR.

An example command for KITTI 00 Sequence:

./orb_store ../data/00/ ../config/orb_ori/KITTI00-02.yaml ../data/Vocabulary/ORBvoc.txt ../KITTI-00/slam_res/Twc.txt ../KITTI-00/KeyFrames/ ../KITTI-00/Map.yml --slow_rate 1.5

• ../data/00/: sequence directory of KITTI Sequence 00
• ../config/orb_ori/KITTI00-02.yaml: yaml file for ORB_SLAM
• ../data/Vocabulary/ORBvoc.txt: DBoW2 Vocabulary txt file for ORB_SLAM
• ../KITTI-00/slam_res/Twc.txt: KeyFrame poses saved by ORB_SLAM, in KITTI format
• ../KITTI-00/KeyFrames/: KeyFrame information saved by ORB_SLAM, can be restored during runtime
• ../KITTI-00/Map.yml: Map saved by ORB_SLAM, can be restored during runtime
• --slow_rate 1.5 [Optional]: Slow Rate of ORB_SLAM2. Duration between Frames: computation + wait_time >= 1.5 * real timestamp. Larger slow_rate is needed for a less powerful CPU. 1.5 is recommended for a I9-12900KF CPU.

an example command for KITTI 00 Sequence:

./floam_run ../data/00/velodyne/ ../KITTI-00/slam_res/floam_raw_00.txt

• ../data/00/velodyne/: directory containing the Lidar PointClouds, whose filenames must be sorted by timestamp.
• ../KITTI-00/slam_res/floam_raw_00.txt: Lidar Poses Estimated by F-LOAM.

An example command for KITTI 00 Sequence:

 ./floam_backend ../config/loam/backend.yml ../KITTI-00/slam_res/floam_raw_00.txt ../data/00/velodyne/

• ../config/loam/backend.yml: config file of backend optimzation
• ../KITTI-00/slam_res/floam_raw_00.txt: Lidar poses estimated by F-LOAM
• ../data/00/velodyne/: directory containing the Lidar PointClouds, whose filenames must be sorted by timestamp.

• ../KITTI-00/KeyFrames: KeyFrame directory includes information of KeyFrames
• ../KITTI-00/Map.yml: Visual Map built by ORB_SLAM
• ../KITTI-00/FrameId.yml: Yaml file that contains Frame indicces of KeyFrames (will saved in the same directory of "Map.yml"
• ../KITTI-00/slam_res/Twc.txt: KeyFrame Poses estimated by ORB_SLAM
• ../KITTI-00/slam_res/floam_raw_00.txt: Lidar Poses estimated by F-LOAM (the number of itmes in this file is not equal to that in Twc.txt)
• ../KITTI-00/slam_res/floam_isam_00.txt: Lidar Poses Optimized by iSAM ((the number of itmes in this file is not equal to that in Twc.txt but equal to floam_raw_00.txt

An example command for KITTI 00 Sequence:

 ./he_calib ../config/calib/00/he_calib.yml

• A file with 13 entries will be saved to ../KITTI/calib_res/he_rb_calib_00.txt.
• The calibration result of the orindary hand-eye calibration is also saved for checking: ../KITTI/calib_res/he_calib_00.txt.

Nomad library must be correctly installed before this step.

An example command for KITTI 00 Sequence:

 ./iba_global ../config/calib/00/iba_calib_global.yml

The final calibration result will be saved to ../KITTI-00/calib_res/iba_global_pl_00.txt Two parameters in ../config/calib/00/iba_calib_global.yml are used to create variants for ablation experiments:

runtime:
  err_weight: [1.0, 1.0]
  use_plane: true

• set use_plane to true and err_weight to [1.0,1.0] to apply CBA+CA (PT+PL) method in Table 1 of our paper (proposed).
• set use_plane to false and err_weight to [1.0,1.0] to apply CBA+CA (PT) method in Table 1 of our paper.
• set use_plane to false and err_weight to [1.0,0.0] to apply CBA method in Table 1 of our paper.

Remember to set different

io:
  ResFile: calib_res/iba_global_baonly_00.txt

for different methods, or the prior files will be overwritten.

• ../data/00/ -> ../data/xx/ for the orb_store program;
• ../config/orb_ori/KITTI00-02.yaml -> ../config/orb_ori/KITTIxx-xx.yaml;
• KITTI-00 -> KITTI-xx for all aurgments;
• ../data/00/velodyne/ -> ../data/xx/velodyne/;
• floam_raw_00.txt -> floam_raw_xx.txt;
• floam_isam_00.txt -> floam_isam_xx.txt;