Changes in the long-term stability of GPS, GLONASS and Galileo clocks based on the IGS repro3 campaign

IF 1.2 Q4 REMOTE SENSING Journal of Applied Geodesy Pub Date : 2023-05-11 DOI:10.1515/jag-2023-0010
K. Maciuk, K. Kozioł, Karolina Krzykowska-Piotrowska, Yasemin Şişman
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Abstract

Abstract Time is the basis of satellite navigation systems. In precision studies, it is additionally important to ensure accuracy at the highest possible level, up to sub-millimetres. For this purpose, corrections of the clocks of satellites and GNSS reference stations are made available. This type of data is made available in real time in a navigation dispatch with an interval of 10 min–2 h depending on the GNSS system, or in a precision orbit file (interval of 15 min) or in the form of clock correction files (30 s or 300 s). This paper analyses the long-term stability of the clocks of satellites of four GNSS systems. For this purpose, IGS reprocessing data from 1994 to 2020 were used and ADEV (Allan deviation) and three related variances were adopted. The study showed the different nature of the satellite correction for each GNSS system and the increase of the stability over time.
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全球定位系统、格洛纳斯系统和伽利略系统时钟长期稳定性的变化
时间是卫星导航系统的基础。在精度研究中,确保尽可能高的精度(高达亚毫米)也很重要。为此目的,订正了卫星和全球导航卫星系统参考站的时钟。这类数据可在导航调度中实时提供,根据GNSS系统的不同,间隔为10 min - 2 h,或以精确轨道文件(间隔为15 min)或以时钟校正文件(30 s或300 s)的形式提供。本文分析了四个GNSS系统卫星时钟的长期稳定性。为此,使用1994 - 2020年IGS再处理数据,采用了ADEV (Allan deviation)和3个相关方差。研究表明,每个GNSS系统的卫星校正性质不同,稳定性随时间增加。
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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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