Accurate spacecraft angular position from DSN VLBI phases using X-band telemetry or DOR tones

2009 IEEE Aerospace conference Pub Date : 2009-03-07 DOI:10.1109/AERO.2009.4839367
D. Bagri, W. Majid
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引用次数: 6

Abstract

At present spacecraft angular position with Deep Space Network (DSN) is determined using group delay estimates from very long baseline interferometer (VLBI) phase measurements employing differential one way ranging (DOR) tones. As an alternative to this approach, we propose estimating position of a spacecraft to half a fringe cycle accuracy using time variations between measured and calculated phases as the Earth rotates using DSN VLBI baseline(s). Combining fringe location of the target with the phase allows high accuracy for spacecraft angular position estimate. This can be achieved using telemetry signals of at least 4–8 MSamples/sec data rate or DOR tones.
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利用x波段遥测或DOR音调从深空网络VLBI相位获得精确的航天器角度位置
目前,基于深空网络(DSN)的航天器角度位置的确定是利用差分单向测距(DOR)音调的甚长基线干涉仪(VLBI)相位测量的群延迟估计来实现的。作为这种方法的替代方案,我们建议使用DSN VLBI基线,利用地球旋转时测量相位和计算相位之间的时间变化来估计航天器的位置,达到条纹周期精度的一半。将目标的条纹定位与相位相结合,可以提高航天器的角位置估计精度。这可以使用至少4-8 MSamples/sec数据速率或DOR音调的遥测信号来实现。
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2009 IEEE Aerospace conference
2009 IEEE Aerospace conference
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