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面向无人地面车辆的自适应传感器可靠性评估的紧耦合与关键帧视觉-惯性-激光雷达里程计系统

A Tightly-Coupled and Keyframe-Based Visual-Inertial-Lidar Odometry System for UGVs With Adaptive Sensor Reliability Evaluation

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2024
被引 4
ABS 3

中文导读

提出一种名为TCK-VILO的视觉-惯性-激光雷达里程计系统,通过自适应传感器可靠性评估动态调整视觉和激光雷达测量权重,提升无人地面车辆在室外场景中的定位精度和鲁棒性。

Abstract

In this article, a novel visual-inertial-lidar odometry (VILO) system named TCK-VILO is proposed to assist unmanned ground vehicles in reaching high localization performance. We introduce an adaptive sensor reliability evaluation method to configure weights of visual and lidar measurements dynamically in the backend optimization, which can improve both the accuracy and robustness of the localization in real-world outdoor scenarios. A two-stage initialization method is proposed to initialize the system by solving the spatio-temporal alignment of system states. In the TCK-VILO system, a lightweight frontend is designed to update system states while lidar or visual data is fed into the system, and then a tightly-coupled and keyframe-based backend is used to refine system states. We evaluate the proposed TCK-VILO pipeline on the public Newer College dataset and a self-collected real-world dataset. Experimental results show that our system can achieve low drifts in various challenging scenes and outperforms competing state-of-the-art VILO systems.

无人地面车辆里程计传感器融合定位机器人