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高精度星间微波测距技术 被引量:25

The Technology of High Accuracy Inter-Satellite Microwave Ranging
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摘要 卫卫跟踪(SST)技术是目前地球重力场测量最有价值和应用前景的方法之一。高精度K波段星间微波测距系统(KBR K Band Ranging System)是低低卫卫跟踪(SST-ll)重力卫星的关键有效载荷,它是一微米量级的测距系统,通过处理高精度的星间距离和距离变化率数据,可以恢复出地球重力场。在研究星间双路微波测距原理的基础上,提出了一种KBR系统的基本结构,详细描述了数据处理过程和KBR系统研究需要突破的关键技术,分析了国内目前的研究水平,给出了我国未来开展KBR系统研究的一些建议。 Satellite-to-satellite tracking is one of the most promising and valuable methods for gravity field determination. The high accuracy inter-satellite K Band Ranging System (KBR) is the major payload of gravity exploring satellite using satellite to satellite tracking in low-low model. It is a micron-level ranging system. The geopotential is determined by processing precise range or range rate observables between the two satellites. Based on the theory study of the dual way microwave ranging system between two satellites, the fundamental structure of KBR was presented in this paper. The data processing progress and the key technology of KBR need to be broke through are described in detail. The current research level of our country is analyzed, and some suggestions are proposed for the future KBR project of China.
作者 佘世刚 王锴 周毅 申健 吴国富 黄欹昌
机构地区 兰州空间技术物理研究所
出处 《宇航学报》 EI CAS CSCD 北大核心 2006年第3期402-406,共5页 Journal of Astronautics
关键词 星间测距 K/Ka频段 重力测量 Inter-satellite ranging K/Ka band Gravity field determination
分类号 V443 [航空宇航科学与技术—飞行器设计]
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参考文献7

  • 1Kim J,Roesset P L,Bettadpur S V,et al.Simulations of the gravity recovery and climate experiment (GRACE) mission[A].In:Proceedings of the AAS/AIAA Space Flight Mechanics Meeting[C].Breckenridge,1999,613-622
  • 2Sharma J.Precise Determination of the Geopotential with a Low-Low Satellite-to-Satellite Tracking Mission[D].Austin:The University of Texas at Austin,1995
  • 3Wolff M.Direct measurements of the earth's gravitational potential using a satellite pair[J].Journal of Geophysical Research,1969,74(22):5295-5300
  • 4Mazanek D D,Kumar R R,Seywald H,et al.GRACE mission design:impact of uncertainties in disturbance environment and satellite force models[A].In:Proceedings of the AAS/AIAA Space Flight Mechanics Meeting[C].Clearwater,2000,967-986
  • 5MacArthur J L,Posner A S.Satellite-to-satellite range-rate measurement[J].IEEE Transactions on Geosciences and Remote Sensing,1985,23(4):517-523
  • 6Thomas J B.An Analysis of Gravity-Field Estimation based on Intersatellite Dual-1-Way Biased Ranging[R].JPL Publication,California,1999
  • 7Kim J.Simulation Study of a Low-Low Satellite-to-satellite Tracking Mission[D].Austin:The University of Texas at Austin,2000

同被引文献186

引证文献25

二级引证文献63

宇航学报
2006年 第3期

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