Performance of GPS sidereal filters during a satellite outage

IF 0.9 Q4 REMOTE SENSING Journal of Geodetic Science Pub Date : 2017-11-27 DOI:10.1515/jogs-2017-0015

C. Atkins, M. Ziebart

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引用次数: 3

Abstract

Abstract Sidereal filtering is the name of a technique used to reduce the effect of multipath interference on a GPS position time series associated with a static or quasi-static antenna. This article assesses the impact of a GPS satellite outage on the performance of a sidereal filter. Two different types of sidereal filter are tested: a position-domain sidereal filter (PDSF) and an observation-domain sidereal filter (ODSF). A satellite outage is simulated at two static receivers with contrasting antenna types and multipath environments. At both stations, the ODSF is more effective than a PDSF at removing multipath error over averaging intervals under around 200 seconds in length whether there is an outage or not. However, difference in the performance of the two types of sidereal filter was much more significant at the station more prone to multipath interference. The results are particularly relevant for applications where high-rate precise point positioning (PPP) is used for monitoring: If a PDSF is applied, then errors due to highfrequency multipath interference may still alias into the resulting position time series if a satellite outage occurs and possibly increasing the false alarm rate. In contrast, an ODSF is likely to perform better in such circumstances.

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卫星停运期间GPS恒星滤波器的性能

恒星滤波是一种用于减少与静态或准静态天线相关的GPS位置时间序列的多径干扰影响的技术。本文评估了GPS卫星中断对恒星滤波器性能的影响。测试了两种不同类型的恒星滤波器:位置域恒星滤波器(PDSF)和观测域恒星滤波器(ODSF)。在两个具有不同天线类型和多径环境的静态接收器上模拟卫星中断。在这两个站点，无论是否发生中断，ODSF都比PDSF更有效地消除了平均时间间隔在200秒以内的多径错误。然而，两种类型的恒星滤波器的性能差异更为显著，站更容易受到多径干扰。该结果与使用高速率精确点定位(PPP)进行监测的应用特别相关:如果应用PDSF，则如果发生卫星中断，则高频多径干扰引起的误差仍可能混叠到结果位置时间序列中，并可能增加误报率。相反，ODSF在这种情况下可能会表现得更好。

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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