Home /Research /Tightly Coupled 3D Lidar Inertial SLAM for Ground Robot
PERCEPTION

Tightly Coupled 3D Lidar Inertial SLAM for Ground Robot

Daosheng Li, Bo Sun, Ruyu Liu, Ruilei Xue

Year
2023
Citations
6
Access
Open access

Abstract

This paper proposes a robotic state estimation and map construction method. The traditional lidar SLAM methods are affected by sensor measurement noise, which causes the estimated trajectory to drift, especially along the altitude direction caused by lidar noise. In this paper, ground parameters in the environment are extracted to construct the ground factors to compress the trajectory estimation drifting along the altitude direction using the characteristics of constant robot pose relative to the ground. Our method uses tightly coupled lidar and inertial to obtain low-drift lidar odometry factors by factor graph optimization. The optimized lidar odometry factors are then added to a global factor graph, together with ground, loop closure, and GPS factors to obtain accurate robot state estimation and mapping after factor graph optimization. The experimental results show that our method has comparable results with advanced lidar SLAM methods, and even performs better in some complex and large-scale environments.

Keywords

LidarOdometrySimultaneous localization and mappingFactor graphComputer scienceComputer visionRobotArtificial intelligenceRemote sensingTrajectory

Related papers

Browse all PERCEPTION papers