Optimization and Construction of Jinan Regional Tm Model Based on LSTM and Analysis of Its Influence on the Accuracy of GNSS Inversion PWV

Optimization and Construction of Jinan Regional Tm Model Based on LSTM and Analysis of Its Influence on the Accuracy of GNSS Inversion PWV

Water vapor constitutes a vital component of atmospheric precipitation, serving as the fundamental material basis for weather phenomena such as rainfall, and is a significant factor contributing to extreme weather events. The Weighted Mean Temperature (Tm) is a crucial factor in the calculation of P...

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Bibliographic Details
Main Authors: Shukai Wang, Qiuying Guo, Guihong Hua, Yingjun Sun, Wengang Sang, Zhengyu Wang
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Atmosphere
Subjects:
perceptible water vapor (PWV)
GNSS water vapor inversion
atmospheric weighted mean temperature (Tm)
long short-term memory network (LSTM)
Online Access:https://www.mdpi.com/2073-4433/16/3/278
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Summary:Water vapor constitutes a vital component of atmospheric precipitation, serving as the fundamental material basis for weather phenomena such as rainfall, and is a significant factor contributing to extreme weather events. The Weighted Mean Temperature (Tm) is a crucial factor in the calculation of Precipitable Water Vapor (PWV) in the atmosphere, directly impacting the quality of GNSS-PWV inversion. The Tm<sub>N</sub>, Tm<sub>L1,</sub> and Tm<sub>L2</sub> models were constructed through regression analysis and LSTM based on data from the Zhangqiu Radiosonde Station in the Jinan region from 2020 to 2022, as well as ERA5 data. The six Tm models (Tm<sub>N</sub>, Tm<sub>L1</sub>, Tm<sub>L2</sub>, Bevis, GTm, and GPT3) were analyzed by comparing them with the Tm value from the Radiosonde station in 2023. Compared with the Bevis, GTm, and GPT3 models, the accuracy of Tm<sub>N</sub> was improved by 24%, 19%, and 45%, Tm<sub>L1</sub> was improved by 20%, 16%, and 42%, and Tm<sub>L2</sub> was increased by 34%, 29%, and 52%. The influence of the above six Tm models on GNSS-PWV accuracy was analyzed using both theoretical and experimental methods. It was demonstrated that the impact of Tm<sub>L1</sub> and Tm<sub>L2</sub> on the accuracy of the PWV solution is significantly enhanced in comparison with the other Tm models. The Tm<sub>L1</sub> and Tm<sub>L2</sub> models developed in this study offer enhanced accuracy for Tm data utilized in GNSS PWV inversion within the Jinan region.
ISSN:2073-4433

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