An integrated Relative Navigation system using GPS/VISNAV for ultra-close spacecraft formation flying

机译：使用GPS / VISNAV的集成相对导航系统，用于超近距离航天器编队飞行

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To improve the accuracy and better fault-tolerant performance for ultra-close spacecraft formation flying, a Global Position System (GPS)/Vision based Navigation (VISNAV) integrated Relative Navigation and Attitude Determination (RNAD) approach was presented in this paper. Onboard GPS was used for RNAD for formation spacecraft by multi-antennas configuration. The same RNAD information was also achieved by VISNAV system separately by using multiple line-of-sight vectors observations from spacecraft to another. Optimal fusion of RNAD information from both GPS/VISNAV subsystems was achieved by a Federal Kalman Filter (FKF) architecture. Simulation results provided later indicate that the integrated system can provide a total improvement of relative navigation and attitude estimation performance in accuracy and fault-tolerant.

机译：为了提高超近距离航天器编队飞行的精度和更好的容错性能，本文提出了一种基于全球定位系统（GPS）/基于视觉的导航（VISNAV）的相对导航和姿态确定（RNAD）集成方法。车载GPS通过多天线配置用于编队航天器的RNAD。通过使用从航天器到另一个航天器的多个视线矢量观测，VISNAV系统还分别获得了相同的RNAD信息。来自两个GPS / VISNAV子系统的RNAD信息的最佳融合是通过联邦卡尔曼滤波器（FKF）架构实现的。稍后提供的仿真结果表明，该集成系统可以在准确性和容错性方面全面改善相对导航和姿态估计性能。

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《The 3rd International Symposium on Systems and Control in Aeronautics and Astronautics》|2010年|p.803-808|共6页
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Junli Chen; Xiaoliang Wang; Xiaowei Shao; Dengping Duan;
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中图分类自动化技术、计算机技术;
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1. GPS/VISNAV integrated relative navigation and attitude determination system for ultra-close spacecraft formation flying [J] . Wang Xiaoliang, Shao Xiaowei, Gong Deren, Systems Engineering and Electronics, Journal of . 2011,第2期

机译：GPS / VISNAV集成的相对导航和姿态确定系统，用于超近距离航天器编队飞行
2. GPS/VISNAV integrated relative navigation and attitude determination system for ultra-close spacecraft formation flying [J] . Xiaoliang Wang, Xiaowei Shao, Deren Gong, 系统工程与电子技术（英文版） . 2011,第002期

机译：GPS / VISNAV集成的相对导航和姿态确定系统，用于超近距离航天器编队飞行
3. GPSNISNAV integrated relative navigation and attitude determination system for ultra-close spacecraft formation flying [J] . Xiaoliang Wang, Xiaowei Shao, Deren Gong, 系统工程与电子技术：英文版 . 2011,第002期

机译：GPSNISNAV集成的相对导航和姿态确定系统用于超近距离航天器编队飞行
4. An integrated Relative Navigation system using GPS/VISNAV for ultra-close spacecraft formation flying [C] . Junli Chen, Xiaoliang Wang, Xiaowei Shao, International Symposium on Systems and Control in Areospace and Astronautics . 2010

机译：用于超近航天器形成飞行的GPS / Visnav的集成相对导航系统
5. Precise GPS relative navigation for future geodetic satellite formation flying missions. [D] . Tsoi, Raymond. 2007

机译：精确的GPS相对导航，可用于未来的大地卫星编队飞行任务。
6. A Submillimeter-Level Relative Navigation Technology for Spacecraft Formation Flying in Highly Elliptical Orbit [O] . Xiaoliang Wang, Deren Gong, Yifei Jiang, 2020

机译：高度椭圆轨道上飞船形成飞行的海底级相对导航技术
7. Laser-based Relative Navigation Using GPS Measurements for Spacecraft Formation Flying [O] . Kwangwon Lee, Hyungjik Oh, Han-Earl Park, 2015

机译：基于Gps测量的航天器编队飞行激光相对导航
8. Autonomous Relative Navigation for Formation-Flying Satellites Using GPS [R] . Gramling, Cheryl, Carpenter, J. Russell, Long, Anne, 2000

机译：利用Gps进行编队飞行卫星的自主相对导航

An integrated Relative Navigation system using GPS/VISNAV for ultra-close spacecraft formation flying

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