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A Novel Autonomous Celestial Integrated Navigation for Deep Space Exploration Based on Angle and Stellar Spectra Shift Velocity Measurement

机译：基于角度和恒星光谱位移速度测量的新型自主天文联合深空探测

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摘要

Traditional autonomous celestial navigation usually uses astronomical angle as measurement, which is a function of spacecraft’s position and can’t resolve the spacecraft’s velocity directly. To solve this problem, velocity measurement by stellar spectra shift is proposed in this paper. The autonomous celestial integrated navigation method is derived by combining velocity measurement with angle measurement, which can ensure the long-term high accuracy, real-time and continuous navigation performance for deep space exploration (DSE) missions. The observability of the integrated navigation system is analyzed. Moreover, the design of doppler navigator and hardware in-the-loop simulation system are described. Finally, a simulation example is employed to demonstration the feasibility and effectiveness of the proposed navigation algorithm.

机译：传统的自主天体导航通常使用天文学角度作为测量值，这是航天器位置的函数，无法直接解析航天器的速度。为了解决这个问题，本文提出了利用恒星光谱位移进行速度测量的方法。通过将速度测量与角度测量相结合，得出了自主的天体综合导航方法，可以确保对深空探索（DSE）任务的长期高精度，实时和连续导航性能。分析了组合导航系统的可观察性。此外，描述了多普勒导航仪的设计和硬件在环仿真系统。最后，通过仿真实例验证了所提导航算法的可行性和有效性。

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期刊名称 Sensors (Basel Switzerland)
作者
Xiao Chen; Zhaowei Sun; Wei Zhang; Jun Xu;
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作者单位

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年(卷),期 2019(19),11
年度 2019
页码 2555
总页数 15
原文格式 PDF
正文语种
中图分类
关键词
autonomous navigation integrated navigation stellar spectra shift velocity measurement;

机译：自主导航;组合导航;恒星光谱位移速度测量;
入库时间 2022-08-17 12:49:54

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专利

1. Autonomous celestial navigation for a deep space probe approaching a target planet based on ephemeris correction [J] . Ma Xin, Fang Jiancheng, Ning Xiaolin, Proceedings of the Institution of Mechanical Engineers . 2015,第G14期

机译：基于星历校正的深空探测器接近目标行星的自主天文导航
2. Autonomous navigation of formation flying spacecrafts in deep space exploration and communication by hybrid navigation utilizing neural network filter [J] . H. Li, Q.Y. Zhang, N.T. Zhang Acta astronautica . 2009,第7a8期

机译：利用神经网络滤波器的混合导航在深空探测与通信中编队飞行器的自主导航
3. A Novel Differential Doppler Measurement-Aided Autonomous Celestial Navigation Method for Spacecraft During Approach Phase [J] . Xiaolin Ning, Mingzhen Gui, Jiancheng Fang, IEEE Transactions on Aerospace and Electronic Systems . 2017,第2期

机译：一种新的航天器差分多普勒测量辅助自主天体导航方法
4. A Hardware-in-the-loop Simulation System of Deep Space Autonomous Navigation Based on Angle and Velocity Measurement [C] . Guangfu Ma, Wei You Chinese Control and Decision Conference . 2020

机译：基于角度和速度测量的深空自主导航半实物仿真系统
5. Velocity occupancy space: Autonomous navigation and dynamic obstacle avoidance with sensor and actuation error. [D] . Bis, Rachael Angela. 2012

机译：速度占用空间：具有传感器和致动误差的自主导航和动态避障。
6. A SINS/SRS/GNS Autonomous Integrated Navigation System Based on Spectral Redshift Velocity Measurements [O] . Wenhui Wei, Zhaohui Gao, Shesheng Gao, 2018

机译：基于光谱红移速度测量的SINS / SRS / GNS自主组合导航系统
7. A SINS/SRS/GNS Autonomous Integrated Navigation System Based on Spectral Redshift Velocity Measurements [O] . Wenhui Wei, Zhaohui Gao, Shesheng Gao, 2018

机译：基于光谱闪光速度测量的SINS / SRS / GNS自主集成导航系统
8. Celestial Pattern Recognition Allowing Autonomous Earth-Surface or Deep-Space Positioning [R] . Schempp, E. P. 1983

机译：允许自主地球表面或深空定位的天体模式识别

A Novel Autonomous Celestial Integrated Navigation for Deep Space Exploration Based on Angle and Stellar Spectra Shift Velocity Measurement

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