Identification of gale weather with doppler weather radar data

Jinliang Zhou, M. Wei, Tao Wu, Nan Li
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Abstract

With high temporal and spatial resolution, Doppler weather radars are important means for revealing structures and revolution of meso-micro scale weather processes. This article uses reflectivity characteristics to identify convective gale weather. 6 promising identification parameters are proposed (CR, VIL, DVIL, SWP, DCRH and SPEED), and an automated identification algorithm for convective gale is established based on fuzzy logic principles. 6 typical cases are used to obtain probability distribution characters based on the statistics of volume scan data, and then it is determined that CR, VIL, DVIL and SWP that have more concentrated probability densities are used as the input variables of the fuzzy logic technique for the identification of the convective gale. According to the statistics, these parameters can effectively identify convective gale. The algorithm identifies 150 from 174 gale wind events in 6 weather processes, with a POD probability 86.21%.
用多普勒天气雷达资料识别大风天气
多普勒天气雷达具有很高的时空分辨率,是揭示中微尺度天气过程结构和演变的重要手段。本文利用反射率特征来识别对流大风天气。提出了6个有前途的识别参数(CR、VIL、DVIL、SWP、DCRH和SPEED),建立了基于模糊逻辑原理的对流大风自动识别算法。利用6个典型案例,在体扫描数据统计的基础上得到概率分布特征,确定概率密度较为集中的CR、VIL、DVIL和SWP作为模糊逻辑技术识别对流大风的输入变量。经统计,这些参数能有效识别对流大风。该算法从6个天气过程的174个大风事件中识别出150个,POD概率为86.21%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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