Abstract
We propose a lightweight and ground-optimized lidar odometry and mapping method, LeGO-LOAM, for realtime six degree-of-freedom pose estimation with ground vehicles. LeGO-LOAM is lightweight, as it can achieve realtime pose estimation on a low-power embedded system. LeGO-LOAM is ground-optimized, as it leverages the presence of a ground plane in its segmentation and optimization steps. We first apply point cloud segmentation to filter out noise, and feature extraction to obtain distinctive planar and edge features. A two-step Levenberg-Marquardt optimization method then uses the planar and edge features to solve different components of the six degree-of-freedom transformation across consecutive scans. We compare the performance of LeGO-LOAM with a state-of-the-art method, LOAM, using datasets gathered from variable-terrain environments with ground vehicles, and show that LeGO-LOAM achieves similar or better accuracy with reduced computational expense. We also integrate LeGO-LOAM into a SLAM framework to eliminate the pose estimation error caused by drift, which is tested using the KITTI dataset.
Keywords
Artificial intelligenceComputer scienceOdometryComputer visionSegmentationLidarGround planeLoamRemote sensingGeographyMobile robotGeologyRobot
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Publication Info
- Year
- 2018
- Type
- article
- Citations
- 1937
- Access
- Closed
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Cite This
Tixiao Shan,
Brendan Englot
(2018).
LeGO-LOAM: Lightweight and Ground-Optimized Lidar Odometry and Mapping on Variable Terrain.
2018 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)
.
https://doi.org/10.1109/iros.2018.8594299
Identifiers
- DOI
- 10.1109/iros.2018.8594299