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基于测距观测的静地卫星定轨精度分析 被引量:1

Covariance Analysis of Range-Based Orbit Determination for Geostationary Satellite
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摘要 在卫星动力法定轨的协方差分析基础上,提出了一种针对地球静止轨道(GEO)卫星的简化定轨精度分析方法。根据GEO卫星的线性化状态转移方程,通过设定地面跟踪网坐标和卫星星下点经度计算叠加矩阵,由观测弧长和采样间隔直接计算定轨精度评定公式中的主要部分。公式扩展后,能比较各种系统误差源对定轨精度的影响,并将影响较大的作为附加参数纳入估计过程并重新评价定轨精度。用该法对10 m定轨精度的测距跟踪网优化设计和测距偏差对定轨精度的影响特性进行分析的结果表明,测量系统中的系统性误差可能以近20的放大倍率传播到卫星沿迹方向和法向,且不能通过自校准测距常值偏差提高定轨精度。 An approximate algorithm of orbit determination error analysis for geostationary (GEO) satellite was presented based on the covariance analysis of dynamic orbit determination in this paper. The superposition matrix was computed by setting coordinate of ground tracking net and satellite ground longitude according to the linear state transfer equation of GEO satellite. The main part of the evaluation equation for orbit determination accuracy was calculated by observation arc and sampling interval. The effects of various system errors on orbit determining accuracy would be compared after the equation extended. The severe ones could be as the additional factors which added into estimation, and the orbit determining accuracy was revalued, The analysis result of the effect of range tracking net optimal design and ranging error with 10 m accuracy on the orbit determining error showed that the system error in measuring system would be propagated into trace and normal direction with 20 times amplified. The orbit determining accuracy would not be improved by self-calibration of constant error in ranging.
作者 杜兰 郑勇 张云飞 陈琼
机构地区 解放军信息工程大学测绘学院
出处 《上海航天》 北大核心 2006年第5期16-19,54,共5页 Aerospace Shanghai
关键词 地球静止轨道卫星 动力法定轨 定轨精度 协方差分析 Geostationary satellite Dynamic orbit determination Orbit determining accuracy Covariance analysis
分类号 V412.41 [航空宇航科学与技术—航空宇航推进理论与工程]
作者简介 杜兰(1970-),女,副教授,博士生,主要从事空间大地测量、卫星精密定轨和空间目标监测。
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参考文献7

  • 1杜兰 ,郑勇 ,王宏 ,张云飞 .地球静止卫星精密测定轨技术的现状及发展[J].飞行器测控学报,2005,24(6):14-18. 被引量:12
  • 2HAINES B, S. LICHTEN R, MUELLERSCHOEN D,et al. A novel use of GPS for determinating the orbit of a geosynchronous satellite [J ]. Proceedings of ION GPS-94, 1994, 191-202.
  • 3GILL M E. Satellite orbits-models, methods, and applications[ M]. New York: Springer-Verlag, 2000.
  • 4MCREYNOLDS S. R. The sensitivity matrix method for orbit determination error analysis[J ]. JPL Space Programs Summary, 1969, 3(37-56): 85-87.
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  • 6THURMAN S. W. Deep-space navigation with differenced data types part Ⅰ: differenced range information content[J]. TDA Progress Report, 1990, 42(103): 47-60.
  • 7ESTEFAN J A, THURMAN S W. Deep-space navigation with differenced data types part Ⅲ:an expanded information content and sensitivity analysis [J ]. TDA Progress Report, 1992, 42(109) : 56-73.

二级参考文献15

  • 1ErikMattiasSoop.地球静止轨道手册[M].北京:国防工业出版社,1999..
  • 2Yunck T P, Wu S C.Ultra-precise orbit determination by GPS.1983, AAS Paper: 83-315.
  • 3Haines B,Lichten S,Srinivasan J,et al. GPS-Like Tracking (GLT) of Geosynchronous Satellites Orbit Determination Results for TDRS. 1995.
  • 4Ward, Douglas T. Operational Improvements of Tracking and Data Relay Satellite (TDRS) Postmaneuver Solutions. Flight Mechanics Symposium, Greenbelt, MD, United States, 2003.
  • 5杜兰 郑勇 王宏.基于测距网/VLBI的 GEO卫星精密定轨[C]..2004航天测控技术研讨会论文集[C].,2004.268-274.
  • 6Haines B,Lichten S,Muellerschoen R,et al. A novel use of GPS for determinating the orbit of a geosynchronous satellite. The TDRS/GPS tracking Demonstration, proceedings of ION GPS-94:191-202.
  • 7Kawase S,Sawada F. Interferometric Tracking for Close Geosynchronous Satellites. The Journal of the Astronautical Sciences,1999,47(1)-(2).
  • 8Ellis J. Performance of a Dedicated VLBI System for TDRSS Navigation. Advances in the Astronautical Science, 1983, 54(1): 111-126.
  • 9Edwards C D. Short Baseline Phase Delay Interferometry. TDA Progress Report 42-91,1987: 46-56.
  • 10Nandi S, Edwards C D, Wu S C. TDRSS orbit determination using short-baseline difference carrier phase. NASA Goddard Flight Mechanics Estimation Theory Symposium, 1992, NASA CP 3186:103-l15.

共引文献11

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上海航天
2006年 第5期

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