Indoor fixed-point hovering control for UAVs based on visual inertial SLAM

Zhiyu Li, Hongguang Li, Yang Liu, Lingyun Jin, Congqing Wang
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Abstract

Purpose Autonomous flight of unmanned aerial vehicles (UAVs) in global position system (GPS)-denied environments has become an increasing research hotspot. This paper aims to realize the indoor fixed-point hovering control and autonomous flight for UAVs based on visual inertial simultaneous localization and mapping (SLAM) and sensor fusion algorithm based on extended Kalman filter. Design/methodology/approach The fundamental of the proposed method is using visual inertial SLAM to estimate the position information of the UAV and position-speed double-loop controller to control the UAV. The motion and observation models of the UAV and the fusion algorithm are given. Finally, experiments are performed to test the proposed algorithms. Findings A position-speed double-loop controller is proposed, by fusing the position information obtained by visual inertial SLAM with the data of airborne sensors. The experiment results of the indoor fixed-points hovering show that UAV flight control can be realized based on visual inertial SLAM in the absence of GPS. Originality/value A position-speed double-loop controller for UAV is designed and tested, which provides a more stable position estimation and enabled UAV to fly autonomously and hover in GPS-denied environment.
基于视觉惯性 SLAM 的无人飞行器室内定点悬停控制
目的无人飞行器(UAV)在全球定位系统(GPS)覆盖环境下的自主飞行已成为一个日益突出的研究热点。本文旨在基于视觉惯性同步定位与映射(SLAM)和基于扩展卡尔曼滤波器的传感器融合算法,实现无人飞行器的室内定点悬停控制和自主飞行。给出了无人机的运动和观测模型以及融合算法。通过融合视觉惯性 SLAM 获得的位置信息和机载传感器的数据,提出了位置-速度双环控制器。室内定点悬停的实验结果表明,在没有 GPS 的情况下,基于视觉惯性 SLAM 可以实现无人机的飞行控制。
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