基于GPS/Galileo观测和NAVCAST产品的对流层实时延迟估计

2020 XXXIIIrd General Assembly and Scientific Symposium of the International Union of Radio Science Pub Date : 2020-08-01 DOI:10.23919/URSIGASS49373.2020.9232439

M. Abdelazeem, A. El-Rabbany

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引用次数: 0

摘要

实时天顶对流层延迟(RT-ZTD)的精确估计是实时大气探测应用的关键。最近，NAVCAST实时服务已经启动，它提供GPS/伽利略精确的卫星轨道和时钟校正。本研究旨在评估实时GPS/Galileo精确点定位(RT-PPP)解决方案获得的实时天顶对流层延迟的精度。首先使用NAVCAST实时产品以实时模式获取和处理来自全球分布的多个参考站连续三天的GPS/Galileo观测数据。然后对RT-ZTD进行估算，并与欧洲定轨中心(CODE)快速对流层产品进行比较。结果表明，RT-ZTD估计与CODE对应的最大标准偏差(STD)为22.2 mm，符合得很好。与仅使用gps的解决方案相比，伽利略观测的加入将RT-ZTD估计的精度提高了约25%。

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Real-Time Tropospheric Delay Estimation Using GPS/Galileo Observations and NAVCAST Products

Precise estimation of real-time zenith tropospheric delay (RT-ZTD) is critical for real-time atmospheric sounding applications. Recently, the NAVCAST real-time service has been launched, which provides GPS/Galileo precise satellite orbit and clock corrections. This study aims to assess the precision of real-time zenith tropospheric delay obtained through the real-time GPS/Galileo precise point positioning (RT-PPP) solution. GPS/Galileo observations, spanning three successive days, from a number of globally distributed reference stations are first acquired and processed in the real-time mode using the NAVCAST real-time products. The RT-ZTD is then estimated and compared with the center for orbit determination in Europe (CODE) rapid tropospheric product counterpart. It is shown that the RT-ZTD estimates are in good agreement with the CODE counterparts with a maximum standard deviation (STD) of 22.2 mm. The addition of Galileo observations improves the precision of the RT-ZTD estimates by about 25% in comparison with the GPS-only solution.

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2020 XXXIIIrd General Assembly and Scientific Symposium of the International Union of Radio Science

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