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Fast and Versatile Feature-Based LiDAR Odometry via Efficient Local Quadratic Surface Approximation

Seungwon Choi, Hee-Won Chae, Yunsuk Jeung, Seokjoon Kim, Kyusung Cho, Tae‐Wan Kim

2022IEEE Robotics and Automation Letters15 citationsDOI

Abstract

We present a fast and versatile feature-based LiDAR odometry method using local quadratic surface approximation and point-to-surface alignment. Unlike most feature-based methods, our approach approximates the local geometry of the LiDAR scan as a quadratic surface to mitigate performance degradation caused by the inconsistency between the feature class and the map's local geometry. For computational efficiency, we leverage a symmetric objective function to align features on the local surface of the map without requiring time-consuming surface parameter evaluation. Evaluation on the KITTI and Newer College dataset demonstrates that the proposed method performs better than other feature-based methods. In particular, our approach exhibits robust performance in environments where the ambiguity of feature classifications is considerable. In addition, to demonstrate the robustness of the proposed method when LiDAR scans are relatively sparse, we evaluated the proposed method on datasets collected using LiDAR with a relatively small number of scan channels.

Topics & Concepts

LidarRobustness (evolution)Leverage (statistics)OdometryFeature (linguistics)Quadratic equationArtificial intelligenceComputer scienceSurface (topology)Pattern recognition (psychology)Computer visionAlgorithmMathematicsRemote sensingGeologyGeometryRobotMobile robotChemistryPhilosophyLinguisticsGeneBiochemistryRobotics and Sensor-Based LocalizationIndoor and Outdoor Localization Technologies3D Surveying and Cultural Heritage
Fast and Versatile Feature-Based LiDAR Odometry via Efficient Local Quadratic Surface Approximation | Litcius