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Multi-Feature Nonlinear Optimization Motion Estimation Based on RGB-D and Inertial Fusion

Xiongwei Zhao, Cunxiao Miao, He Zhang

发表年份
2020
引用次数
3
访问权限
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摘要

To achieve a high precision estimation of indoor robot motion, a tightly coupled RGB-D visual-inertial SLAM system is proposed herein based on multiple features. Most of the traditional visual SLAM methods only rely on points for feature matching and they often underperform in low textured scenes. Besides point features, line segments can also provide geometrical structure information of the environment. This paper utilized both points and lines in low-textured scenes to increase the robustness of RGB-D SLAM system. In addition, we implemented a fast initialization process based on the RGB-D camera to improve the real-time performance of the proposed system and designed a new backend nonlinear optimization framework. By minimizing the cost function formed by the pre-integrated IMU residuals and re-projection errors of points and lines in sliding windows, the state vector is optimized. The experiments evaluated on public datasets show that our system achieves higher accuracy and robustness on trajectories and in pose estimation compared with several state-of-the-art visual SLAM systems.

关键词

Artificial intelligenceInitializationComputer visionRobustness (evolution)Inertial measurement unitComputer scienceSimultaneous localization and mappingRGB color modelMotion estimationRobot

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