Assimilating Ground-Based and High-Dynamic Airborne GNSS Zenith Total Delays Into Numerical Weather Predictions
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Date
2025
Publication Type
Journal Article
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yes
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Abstract
The assimilation of ground-based global navigation satellite system (GNSS) zenith total delays (ZTDs) has been demonstrated to benefit meteorological applications such as weather forecasting and monitoring. However, their effects are limited by the restricted 3-D spatial resolution, especially in the vertical direction. Fortunately, the fast-developing uncrewed aerial vehicle (UAV) market offers an opportunity to obtain airborne GNSS ZTDs that contain atmospheric information at different locations. Given their unprecedented vertical coverage and spatial resolution, it is promising to assimilate them and further improve numerical weather predictions (NWPs), which, however, has not been investigated and is thus still unclear to the community. In this article, we obtained UAV-based GNSS ZTDs and assimilated them using the WRFDA package, with ERA5 and radiosonde as references to evaluate ZTD and relative humidity (RH) accuracy. Our results show that assimilating airborne GNSS ZTDs improved the humidity field, with root-mean-square error (RMSE) and bias decreasing by up to 22% and 57%, respectively, compared to merely assimilating ground-based GNSS ZTDs. The improvements are more significant with a higher spatial-temporal resolution of the airborne observations. This study contributes to further expanding the application of GNSS meteorology and offers initial ideas for using airborne GNSS to benefit weather forecasts.
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published
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Journal / series
Volume
63
Pages / Article No.
4106909
Publisher
IEEE
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Methods
Software
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Subject
Data assimilation (DA); global navigation satellite systems (GNSSs); numerical weather predictions (NWPs); uncrewed aerial vehicle (UAV); weather research and forecasting (WRF); zenith total delays (ZTDs)
Organisational unit
09707 - Soja, Benedikt / Soja, Benedikt