ros2 slam package of the frontend using OpenMP-boosted gicp/ndt scan matching and the backend using graph-based slam.
Green: path with loopclosure
(the 25x25 grids in size of 10m × 10m)
Red and yellow: map
lidarslam_ros2
is a ROS2 package of the frontend using OpenMP-boosted gicp/ndt scan matching and the backend using graph-based slam.
I found that even a four-core laptop with 16GB of memory could work in outdoor environments for several kilometers with only 16 line LiDAR.
(WIP)
You need ndt_omp_ros2 for scan-matcher
clone
cd ~/ros2_ws/src
git clone --recursive https://github.com/rsasaki0109/lidarslam_ros2
build
cd ~/ros2_ws
colcon build
-
input
/input_cloud (sensor_msgs/PointCloud2)
/tf(from "base_link" to LiDAR's frame)
/initial_pose (geometry_msgs/PoseStamed)(optional)
/imu (sensor_msgs/Imu)(optional)
/tf(from "odom" to "base_link")(Odometry)(optional) -
output
/current_pose (geometry_msgs/PoseStamped)
/map (sensor_msgs/PointCloud2)
/path (nav_msgs/Path)
/tf(from "map" to "base_link")
/map_array(lidarslam_msgs/MapArray)
-
input
/map_array(lidarslam_msgs/MapArray) -
output
/modified_path (nav_msgs/Path)
/modified_map (sensor_msgs/PointCloud2) -
srv
/map_save (std_srvs/Empty)
pose_graph.g2o
and map.pcd
are saved in loop closing or using the following service call.
ros2 service call /map_save std_srvs/Empty
- frontend(scan-matcher)
Name | Type | Default value | Description |
---|---|---|---|
registration_method | string | "NDT" | "NDT" or "GICP" |
ndt_resolution | double | 5.0 | resolution size of voxel[m] |
ndt_num_threads | int | 0 | threads using ndt(if 0 is set, maximum alloawble threads are used.)(The higher the number, the better, but reduce it if the CPU processing is too large to estimate its own position.) |
gicp_corr_dist_threshold | double | 5.0 | the distance threshold between the two corresponding points of the source and target[m] |
trans_for_mapupdate | double | 1.5 | moving distance of map update[m] |
vg_size_for_input | double | 0.2 | down sample size of input cloud[m] |
vg_size_for_map | double | 0.05 | down sample size of map cloud[m] |
use_min_max_filter | bool | false | whether or not to use minmax filter |
scan_max_range | double | 100.0 | max range of input cloud[m] |
scan_min_range | double | 1.0 | min range of input cloud[m] |
scan_period | double | 0.1 | scan period of input cloud[sec](If you want to compound imu, you need to change this parameter.) |
map_publish_period | double | 15.0 | period of map publish[sec] |
num_targeted_cloud | int | 10 | number of targeted cloud in registration(The higher this number, the less distortion.) |
debug_flag | bool | false | Whether or not to display the registration information |
set_initial_pose | bool | false | whether or not to set the default pose value in the param file |
initial_pose_x | double | 0.0 | x-coordinate of the initial pose value[m] |
initial_pose_y | double | 0.0 | y-coordinate of the initial pose value[m] |
initial_pose_z | double | 0.0 | z-coordinate of the initial pose value[m] |
initial_pose_qx | double | 0.0 | Quaternion x of the initial pose value |
initial_pose_qy | double | 0.0 | Quaternion y of the initial pose value |
initial_pose_qz | double | 0.0 | Quaternion z of the initial pose value |
initial_pose_qw | double | 1.0 | Quaternion w of the initial pose value |
use_odom | bool | false | whether odom is used or not for initial attitude in point cloud registration |
use_imu | bool | false | whether 9-axis imu(Angular velocity, acceleration and orientation must be included.) is used or not for point cloud distortion correction.(Note that you must also set the scan_period .) |
debug_flag | bool | false | Whether or not to display the registration information |
- backend(graph-based-slam)
Name | Type | Default value | Description |
---|---|---|---|
registration_method | string | "NDT" | "NDT" or "GICP" |
ndt_resolution | double | 5.0 | resolution size of voxel[m] |
ndt_num_threads | int | 0 | threads using ndt(if 0 is set, maximum alloawble threads are used.) |
voxel_leaf_size | double | 0.2 | down sample size of input cloud[m] |
loop_detection_period | int | 1000 | period of searching loop detection[ms] |
threshold_loop_closure_score | double | 1.0 | fitness score of ndt for loop clousure |
distance_loop_closure | double | 20.0 | distance far from revisit candidates for loop clousure[m] |
range_of_searching_loop_closure | double | 20.0 | search radius for candidate points from the present for loop closure[m] |
search_submap_num | int | 2 | the number of submap points before and after the revisit point used for registration |
num_adjacent_pose_cnstraints | int | 5 | the number of constraints between successive nodes in a pose graph over time |
use_save_map_in_loop | bool | true | Whether to save the map when loop close(If the map saving process in loop close is too heavy and the self-position estimation fails, set this to false .) |
demo data(ROS1) is hdl_400.bag
in hdl_graph_slam
The Velodyne VLP-32 was used in this data.
rviz2 -d src/lidarslam_ros2/lidarslam/rviz/mapping.rviz
ros2 launch lidarslam lidarslam.launch.py
ros2 bag play -s rosbag_v2 hdl_400.bag
Green: path with loopclosure, Yellow: path without loopclosure
demo data(ROS1) by Autoware Foundation
https://data.tier4.jp/rosbag_details/?id=212
The Velodyne VLP-16 was used in this data.
rviz2 -d src/lidarslam_ros2/lidarslam/rviz/mapping_tukuba.rviz
ros2 launch lidarslam lidarslam_tukuba.launch.py
ros2 bag play -s rosbag_v2 tc_2017-10-15-15-34-02_free_download.bag
Green: path
Red and yellow: map
- Eigen
- PCL(BSD3)
- g2o(BSD2 except a part)
- ndt_omp (BSD2)