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- Title
Evaluating the Forecast Impact of Assimilating ATOVS Radiance With the Regional System of Multigrid NLS‐4DVar Data Assimilation for Numerical Weather Prediction (SNAP).
- Authors
Zhang, Hongqin; Tian, Xiangjun
- Abstract
The regional System of Multigrid Nonlinear Least Squares Four‐dimensional Variational Data Assimilation for Numerical Weather Prediction (SNAP) was recently established based on the multigrid NLS‐4DVar assimilation scheme, Weather Research and Forecasting numerical model, and Gridpoint Statistical Interpolation (GSI)‐based observation quality control and observation operator modules. The analysis variables are model state variables, rather than the control variables adopted in the conventional 4DVar system. The regional SNAP adopts the multigrid NLS‐4DVar, which can correct errors from large to small scales and accelerate iteration solutions, to minimize the cost function and obtain the optimal analysis. Therefore, the regional SNAP has a higher assimilation efficiency and accuracy. In addition, the assimilation performance of the regional SNAP for conventional and radar observations had been evaluated. The main goal of this study is to achieve the direct assimilation of satellite radiation data using the regional SNAP. In this study, 1‐week cycle assimilation experiments assimilating Advanced TIROS Operational Vertical Sounder (ATOVS) data were designed to fully evaluate the performance of regional SNAP compared with the GSI Ensemble Four‐dimensional Variational (4DEnVar) scheme. First, a rainstorm was selected to illustrate the performance of regional SNAP. The cumulative precipitation distribution of SNAP was closer to reality and the higher equitable threat score and lower far score indicate that the regional SNAP improves precipitation forecast. In the 1‐week numerical experiments, for the u/v wind and temperature variables, the regional SNAP outperforms GSI and there was an improvement in GSI for the humidity variable. Plain Language Summary: What's the weather like today? Is it raining? When does it rain? How much rain does it rain? As everyone knows, weather is closely related to our lives. Accurate weather forecasting can save lives, reduce the impact of disastrous weather events, avoid economic losses, and so forth. Numerical weather prediction (NWP) is the most commonly used and effective method. The data assimilation system is running every day in the major operational NWP centers around the world. Here the regional System of Multigrid Nonlinear Least Squares Four‐dimensional Variational Data Assimilation for Numerical Weather Prediction (SNAP) was established. The multigrid NLS‐4DVar can correct errors from large to small scales and accelerate iteration solutions. Therefore, the regional SNAP has a higher assimilation efficiency and accuracy. Numerical experiments show that assimilating satellite radiation observations with regional SNAP improves precipitation forecast and the u/v wind, temperature and humidity forecast. Key Points: The multigrid NLS‐4DVar method is used to assimilate satellite radianceAssimilating Advanced TIROS Operational Vertical Sounder (ATOVS) data with regional SNAP improves precipitation forecastThe regional SNAP performs better than Gridpoint Statistical Interpolation (GSI) for u/v wind and temperature variables
- Subjects
NUMERICAL weather forecasting; PRECIPITATION forecasting; RAINSTORMS; RADIANCE; WEATHER forecasting; COST functions; QUALITY control
- Publication
Journal of Advances in Modeling Earth Systems, 2021, Vol 13, Issue 7, p1
- ISSN
1942-2466
- Publication type
Article
- DOI
10.1029/2020MS002407