临近预报
雷雨
闪电(连接器)
雷达
危害
气象学
数字高程模型
气象雷达
遥感
数值天气预报
环境科学
计算机科学
地质学
地理
电信
有机化学
化学
量子力学
物理
功率(物理)
作者
Jussi Leinonen,Ulrich Hamann,Ioannis V. Sideris,Urs Germann
摘要
Abstract Predictions of thunderstorm‐related hazards are needed in several sectors, including first responders, infrastructure management and aviation. To address this need, we present a deep learning model that can be adapted to different hazard types. The model can utilize multiple data sources; we use data from weather radar, lightning detection, satellite visible/infrared imagery, numerical weather prediction and digital elevation models. We demonstrate the ability of the model to predict lightning, hail and heavy precipitation probabilistically on a 1 km resolution grid, with a temporal resolution of 5 min and lead times up to 60 min. Shapley values quantify the importance of the different data sources, showing that the weather radar products are the most important predictors for all three hazard types.
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