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MF-LIO: integrating multi-feature LiDAR inertial odometry with FPFH loop closure in SLAM

Sungwon Song, Xiaojun Shi, Chunyun Ma, Xuesong Mei

发表年份
2024
引用次数
7

摘要

Abstract Simultaneous localization and mapping (SLAM) is a pivotal technology in autonomous vehicle navigation and a significant research area in robotics. Addressing the inaccuracies in point cloud registration of traditional LiDAR SLAM, which lead to localization and mapping errors, we propose a novel LiDAR inertial odometry approach integrating inertial measurement units and a multi-feature joint registration strategy. Initially, we introduce an innovative ground segmentation method and feature categorization strategy, enhancing ground detection mechanisms and optimizing the feature extraction process. Subsequently, our multi-feature joint registration method computes the pose transformations between current frames and the local map. Finally, we employ a global registration method based on fast point feature histograms feature descriptors for coarse alignment, providing initial estimates for the generalized iterative closest point algorithm, thus efficiently and accurately mitigating cumulative errors. Extensive evaluations on the KITTI dataset and real-world campus environment demonstrate that our approach significantly surpasses existing advanced LiDAR SLAM solutions, achieving over a 24% improvement in pose estimation accuracy.

关键词

OdometrySimultaneous localization and mappingInertial frame of referenceClosure (psychology)Feature (linguistics)Computer scienceLidarArtificial intelligenceLoop (graph theory)Computer vision

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