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- Title
GNSS 和非实测气象参数的 PWV 反演方法 及其精度评估.
- Authors
赵庆志; 刘 康; 李祖锋; 姚顽强; 姚宜斌
- Abstract
Objectives: Water vapor is one of the important components of the atmosphere, and its spatial and temporal variations are influenced by various meteorological factors such as temperature and pressure. Therefore, it is important to study the impact factors of water vapor inversion to obtain high-precision water vapor information. Methods: We study the method of precipitable water vapor (PWV) detection using global navigation satellite system (GNSS) and non-measured meteorological data (temperature and pressure) in China. First, we evaluate the data of temperature and pressure provided by the European Centre for Medium-Range Weather Forecasting (ECMWF) reanalysis v5 (ERA5), and the zenith troposphere delay retrieved by GNSS. Then, different calculation models of atmospheric weighted mean temperature, named Tm, are analyzed to determine the optimal calculation model in China region. Finally, the theoretical error of PWV is derived from the error propagation theory, and the hourly resolution PWV is calculated using the non-measured data, and then the accuracy is evaluated. Results: The results show that the PWV obtained by GNSS in China region is in good spatial and temporal agreement with PWV derived from radio sounding and ERA5. The error of PWV during the rainfall period is slightly larger than that during the nonrainfall period. The theoretical error of PWV obtained by the proposed method is 2.0 mm, and the actual error is 2.1 mm. Conclusions: The inversion of PWV based on GNSS and non-measured meteorological parameters has high accuracy and it is important for studying the spatial and temporal variation and distribution of water vapor in China region.
- Subjects
EUROPEAN Centre for Medium-Range Weather Forecasts (Organization); PRECIPITABLE water; GLOBAL Positioning System; TEMPERATURE
- Publication
Geomatics & Information Science of Wuhan University, 2024, Vol 49, Issue 3, p453
- ISSN
1671-8860
- Publication type
Article
- DOI
10.13203/j.whugis20210441