Robust Navigation System for UAVs in GNSS-and Magnetometer-Denied Environments

机译：用于GNSS和磁力计拒绝环境中的无人机的强大导航系统

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Navigating in environments where GNSS- and magnetometer measurements are unreliable can lead to a significant decrease in state estimation accuracy. The use of supplementary measurements, either from optical sensors or otherwise, could enhance the state estimates notably even when at low quality. Using inertial navigation corrected by a multiplicative extended Kalman filter, state estimation is performed on a simulated UAV in motion. This paper has investigated the effect of adding measurements of body-fixed velocity and specific force as reference vectors to the navigation systems of UAVs in GNSS- and magnetometer denied environments. A case study for each of the two measured vectors is performed, and compared to a reference flight without dropout of GNSS or magnetometer, and a flight with dropout, but without any additional aiding sensor.

机译：在GNSS和磁力计测量不可靠的环境中导航可能导致状态估计精度的显着降低。使用来自光学传感器或其他方式的补充测量可以提高状态估计，即使在低质量时也会显着估计。使用乘法扩展卡尔曼滤波器校正的惯性导航，在运动中对模拟的UAV执行状态估计。本文研究了将身体固定速度和特定力量的测量值作为参考矢量添加到GNSS和磁力计的无人机导航系统中的效果。对两个测量的向量中的每一个的案例研究进行，并与参考航班进行比较，而不会丢弃GNSS或磁力计，以及带辍学的飞行，但没有任何额外的辅助传感器。

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《International Conference on Unmanned Aircraft Systems》|2019年|739p|共9页
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P?l H. Mathisen; Thor I. Fossen;
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中图分类无人驾驶飞机;
关键词
MEKF; Attitude Estimation; Attitude Parametrization; UAV; Sensor Fusion; Reference Vectors;

机译：MEKF;姿态估计;姿态参数化;无人机;传感器融合;参考向量;

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专利

1. More Robust Features for Adaptive Visual Navigation of UAVs in Mixed Environments [J] . Volkova Anastasiia, Gibbens Peter W. Journal of Intelligent & Robotic Systems: Theory & Application . 2018,第1a2期

机译：混合环境中的无人机的自适应视觉导航更强大的功能
2. UAVS ENHANCED NAVIGATION IN OUTDOOR GNSS DENIED ENVIRONMENT USING UWB AND MONOCULAR CAMERA SYSTEMS [J] . Zahran S., Masiero A., Mostafa M. M., International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences . 2019,第1期

机译：UAVS使用超宽带和单机摄像头系统在室外GNSS所需环境中增强导航
3. A smart hybrid vision aided inertial navigation system approach for UAVs in a GNSS denied environment [J] . Mostafa M. M., Moussa A. M., El-Sheimy N., Navigation . 2018,第4期

机译：GNSS拒绝环境下无人机的智能混合视觉辅助惯性导航系统方法
4. Robust Navigation System for UAVs in GNSS-and Magnetometer-Denied Environments [C] . Pål H. Mathisen, Thor I. Fossen International Conference on Unmanned Aircraft Systems . 2019

机译：GNSS和磁力计拒绝环境下无人机的鲁棒导航系统
5. UGV-to-UAV Cooperative Ranging for Robust Navigation in GNSS-Challenged Environments [D] . Sivaneri, Victor O. 2018

机译：UGV到UAV协同测距，在GNSS挑战环境中实现稳健导航
6. A LiDAR and IMU Integrated Indoor Navigation System for UAVs and Its Application in Real-Time Pipeline Classification [O] . G. Ajay Kumar, Ashok Kumar Patil, Rekha Patil, 2017

机译：用于无人机的LiDAR和IMU集成室内导航系统及其在实时管线分类中的应用
7. Radar and Visual Odometry Integrated System Aided Navigation for UAVS in GNSS Denied Environment [O] . Mostafa Mostafa, Shady Zahran, Adel Moussa, 2018

机译：雷达和视觉内径集成系统辅助导航在GNSS中的无人机拒绝环境

Robust Navigation System for UAVs in GNSS-and Magnetometer-Denied Environments

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