Verification of the Polish Geodetic Reference Frame by Means of a New Solution Based on Permanent GNSS Data from the Years 2011-2014

IF 0.3 Q4 REMOTE SENSING
T. Liwosz, M. Ryczywolski
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引用次数: 3

Abstract

Abstract The new solution for the Polish geodetic primary GNSS network was created to verify the currently used reference frame (PL-ETRF2000). The new solution is based on more GNSS data (more daily observation sessions included, a longer data timespan, GLONASS observations added) which were processed in a newer reference frame (IGb08) according to up-to-date methodology and using the latest version of Bernese GNSS Software. The new long-term solution (spanning 3.7 years) was aligned to the IGb08 reference frame using a minimum constraints approach. We categorized Polish reference stations into two categories according to their data length. We obtained good agreement of the new solution with the PL-ETRF2000: for most stations position differences did not exceed 5 mm in horizontal, and 10 mm in vertical components. However, for 30 stations we observed discontinuities in position time series, mostly due to GNSS equipment changes, which occured after the introduction of PL-ETRF2000. Position changes due to the discontinuities reached 9.1 mm in horizontal components, and 26.9 mm in vertical components. The new solution takes into account position discontinuities, and in addition also includes six new stations which were installed after the introduction of the PL-ETRF2000. Therefore, we propose to update the currently-used reference frame for the Polish geodetic primary network (PL-ETRF2000) with the new solution. The new solution was also accepted by the EUREF Technical Working Group as a class A solution (highest accuracy) according to EUREF standards.
基于2011-2014年永久GNSS数据的波兰大地测量参考系新解验证
为验证当前使用的参考框架(PL-ETRF2000),创建了波兰大地测量初级GNSS网络的新解决方案。新的解决方案基于更多的GNSS数据(包括更多的每日观测时段,更长的数据时间跨度,增加GLONASS观测),这些数据是根据最新的方法在较新的参考框架(IGb08)中处理的,并使用最新版本的伯尔尼GNSS软件。新的长期解决方案(跨越3.7年)使用最小约束方法与IGb08参考框架保持一致。我们根据数据长度将波兰参考站分为两类。我们与PL-ETRF2000获得了很好的一致性:对于大多数站点,水平组件的位置差异不超过5毫米,垂直组件的位置差异不超过10毫米。然而,对于30个站点,我们观察到位置时间序列的不连续性,主要是由于引入PL-ETRF2000后GNSS设备的变化。不连续性导致的位置变化在水平分量中达到9.1 mm,在垂直分量中达到26.9 mm。新的解决方案考虑了位置不连续性,此外还包括在引入PL-ETRF2000后安装的六个新站。因此,我们建议用新的解决方案更新目前使用的波兰大地测量初级网参考框架(PL-ETRF2000)。根据EUREF标准,新的解决方案也被EUREF技术工作组接受为a级解决方案(最高精度)。
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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来源期刊
自引率
28.60%
发文量
5
审稿时长
12 weeks
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