FY-4A/AGRI Infrared Brightness Temperature Estimation of Precipitation Based on Multi-Model Ensemble Learning

Gen Wang, Wei Han, Song Ye, Song Yuan, Jing Wang,Feng Xie

EARTH AND SPACE SCIENCE(2024)

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摘要
Satellite infrared detectors cannot penetrate clouds, especially precipitating clouds. Improving precipitation estimation accuracy based on infrared brightness temperature has always been important but challenging. In this paper, based on the infrared brightness temperature of the Advanced Geosynchronous Radiation Imager (AGRI) onboard China's Feng-Yun 4A satellite, we develop and evaluate a new precipitation estimation method. First, using static data, physical characteristics of clouds, cloud image texture features, temporal motion features, and AGRI infrared channel brightness temperature, we construct features for a machine learning model. Then, we develop precipitation estimation methods. Precipitation is estimated in two steps: classification and regression. We employ a random forest classification model to identify whether there is precipitation in a given field of view. If there is precipitation, a multi-model ensemble regression learning method is used to estimate the areas with this precipitation. The ensemble learning method uses convex optimization to integrate prediction results based on the optimization of hyperparameters of five basic models (i.e., those of random forest, XGBoost, LightGBM, decision tree, and extra tree models). Furthermore, two regression stacking ensemble models-the Least Absolute Shrinkage and Selection Operator (herein referred to as Stacking1-LASSO) and K-nearest neighbor (herein referred to as Stacking2-KNN)-are used to predict the results of the aforementioned basic models. The results of basic models are used as inputs of these two stacking models. Finally, based on the Integrated Multi-satellitE Retrievals for GPM (IMERG) precipitation product and rain gauge precipitation data, we conduct precipitation estimation experiments and evaluate our methods. The results show that ensemble learning models have greater accuracy in estimating precipitation than the basic models. When using IMERG precipitation as the target precipitation, ensemble learning models can estimate the central area of heavy precipitation during typhoons Ampil and Maria. The ensemble learning estimation effect is better than that of Stacking2-KNN. Moreover, when rain gauge data is used as the target precipitation, ensemble learning can also estimate the center of heavy precipitation and with good consistency with recorded satellite brightness temperature data. A convex optimization weighted and stacked ensemble learning method for satellite data estimation of precipitation is developed Near real-time precipitation estimates can be obtained throughout the day using only geographic information and Advanced Geosynchronous Radiation Imager infrared brightness temperature data The proposed ensemble learning method can estimate the central areas of typhoons and short-term heavy rainfall
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关键词
FY-4A/AGRI,precipitation estimation,feature variables,multi-model ensemble learning,IMERG precipitation,rain gauge data
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