Mining the Features of Environmental Physical Field Influencing Trajectories of Mesoscale Convective Systems Based on Spatial Clustering Analysis

2008 Fifth International Conference on Fuzzy Systems and Knowledge Discovery Pub Date : 2008-10-18 DOI:10.1109/FSKD.2008.31

Zhongyang Guo, Xiaoyan Dai, Jianping Wu

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Abstract

The forecasting of disaster weather using spatial data mining technique is still at an initial stage presently. Recent researches have indicated that intensive precipitation in the Yangtze River Basin in China is closely related to the activity of Mesoscale Convective Systems (MCS) moving out of the Tibetan Plateau in China, however, the factors that influence MCS trajectories are very complex. To discover the trajectories of MCS and features of environmental physical field favoring MCS origination and development over the Plateau, in this paper, MCS are automatically tracked over the Plateau using GMS infrared black-body temperature data. Based on these, spatial clustering method, CLARANS method, is applied to analyzing the characteristics of dynamical field, which influence MCS move eastward out of the Plateau in summer, using environmental physical field forecasting values. The results reveal that the methods are effective and valuable approaches to studying the conditions of environmental physical field favoring the trajectory and propagation of MCS, and improving the predictability of intensive convective weather.

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基于空间聚类分析的中尺度对流系统环境物理场影响轨迹特征挖掘

利用空间数据挖掘技术进行灾害天气预报目前还处于初级阶段。近年来的研究表明，中国长江流域的强降水与中尺度对流系统(MCS)的活动密切相关，但影响中尺度对流系统运动轨迹的因素非常复杂。为了发现高原MCS的运动轨迹和有利于MCS产生和发展的环境物理场特征，本文利用GMS红外黑体温度数据对高原MCS进行了自动跟踪。在此基础上，应用空间聚类方法和CLARANS方法，利用环境物理场预测值，分析夏季影响MCS东移的动力场特征。结果表明，该方法是研究有利于MCS轨迹和传播的环境物理场条件，提高强对流天气可预测性的有效和有价值的方法。

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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2008 Fifth International Conference on Fuzzy Systems and Knowledge Discovery

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