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地球静止卫星精密测定轨技术的现状及发展
引用本文: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
作者姓名:杜兰 郑勇 王宏 张云飞
作者单位:解放军信息工程大学测绘学院·河南郑州·450052;解放军信息工程大学测绘学院·河南郑州·450052;北京跟踪与通信技术研究所·北京·100094
摘    要:
介绍并分析了针对地球静止卫星的各种高精度测定轨跟踪技术.指出测距系统的校正误差是常规测距跟踪网定轨在沿迹方向和法向的主要误差源,为保证一致的卫星三维位置解算精度,应利用高分辨率的角度观测约束信息来有效地降低测距偏差对轨道确定的影响,或者利用天地基联合定轨的低轨卫星运动几何在轨道改进的同时精化测距偏差.

关 键 词:地球静止卫星  双边测距转发系统  连线干涉测量系统  TDRSS
收稿时间:2005-06-27
修稿时间:2005-08-29

Analysis on Current Techniques in Tracking and Orbit Determination for Geostationary Satellites
DU Lan, ZHENG Yong,WANG Hong, ZHANG Yun-fei. Analysis on Current Techniques in Tracking and Orbit Determination for Geostationary Satellites[J]. Journal of Spacecraft TT&C Technology, 2005, 24(6): 14-18
Authors:DU Lan   ZHENG Yong  WANG Hong   ZHANG Yun-fei
Affiliation:1. Zhengzhou Institute of Surveying and Mapping, Zhengzhou, Henan Province 450052; 2. Beijing Institute of Tracking and Telecommunications Technology, Beijing 100094
Abstract:
Several individual and combined techniques including BRTS, VLBI, CEI and GPS are presented and analyzed for tracking and orbit determination for geostationary satellites. It is indicated that range calibration bias of BRTS is the prominent error source in orbit determination of GEO, magnifying it in both along-trajectory and normal direction components. Augmented with precise angular restrictions from VLBI or CEI, orbit determination accuracy is much less sensitive to the uncertainty of range bias of BRTS. In TDRSS, favorable observation geometry of motions of LEO has the advantage of improving accuracy of orbit determination for LEO as well as GEO satellites, and range bias can be calibrated on a regular basis.
Keywords:GEO   BRTS   CEI   TDRSS
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