Computing the USO frequency instability of GRACE satellites

2010 IEEE Aerospace Conference Pub Date : 2010-03-06 DOI:10.1109/AERO.2010.5446732

Ung-Dai Ko, B. Tapley

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引用次数: 6

Abstract

The GRACE (Gravity Recovery and Climate Experiment) mission was launched in March 2002 to determine the Earth's gravity model by using accurate measurements of the inter-satellite distance between two identical satellites. 12A strategy to combine two one-way ranging measurements, called dual one-way ranging (DOWR), is used to cancel out the common frequency noises of the oscillators embedded in the two satellites. The ultra-stable oscillator (USO) is the source for the reference frequency for each satellite. The time, generated by the USO, drifts due to the frequency instability of the USO. The time drift can be computed with accurate GPS phase measurement during the precision orbit determination process (POD) and leads to a time-tag correction. This study analyzes three methods to compute the upper boundary of the frequency instability level of the USOs. The first method is to use the DOWR measurement. The second method is to use the time-tag correction for each satellite. The third method is to use the difference of the time-tag corrections of the two satellites. This paper will show which method is most reliable for monitoring the level of frequency instability of the USOs.

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GRACE卫星USO频率不稳定性计算

GRACE(重力恢复和气候实验)任务于2002年3月发射，目的是通过精确测量两颗相同卫星之间的卫星间距离来确定地球的重力模型。一种结合两种单向测距测量的策略，称为双单向测距(DOWR)，用于抵消嵌入在两颗卫星中的振荡器的共同频率噪声。超稳定振荡器(USO)是每颗卫星的参考频率源。由USO产生的时间由于USO的频率不稳定而漂移。在精确定轨过程中，可以通过精确的GPS相位测量来计算时间漂移，并导致时间标签校正。本文分析了三种计算USOs频率不稳定水平上界的方法。第一种方法是使用DOWR测量。第二种方法是对每颗卫星进行时间标签校正。第三种方法是利用两颗卫星的时标改正量之差。本文将展示哪种方法最可靠地监测USOs的频率不稳定水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 IEEE Aerospace Conference

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