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In order to study the spatial structure and dynamical mechanism of extreme precipitation in East Asia, a corresponding climate network is constructed by employing the method of event synchronization. It is found that the area of East Asian summer extreme precipitation can be separated into two regions: one with high area-weighted connectivity receiving heavy precipitation mostly during the active phase of the East Asian Summer Monsoon(EASM),and another one with low area-weighted connectivity receiving heavy precipitation during both the active and the retreating phase of the EASM. Besides, a new way for the prediction of extreme precipitation is also developed by constructing a directed climate networks. The simulation accuracy in East Asia is 58% with a 0-day lead, and the prediction accuracy is 21% and average 12% with a 1-day and an n-day(2≤n≤10) lead, respectively. Compared to the normal EASM year, the prediction accuracy is low in weak years and high in strong years, which is relevant to the differences of correlations and extreme precipitation rates in different EASM situations. Recognizing and indentifying these effects is good for understanding and predicting extreme precipitation in East Asia. 相似文献
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利用1971-2007年东亚地区夏季(6-8月)逐日格点降水资料,借助事件同步法建立格点之间的非线性相关,构建了极端降水复杂网络,从复杂网络的角度研究了东亚地区极端降水的区域性特征,并利用复杂网络中的关联强度和关联方向信息,从极端降水时、空记忆性的角度构建了预测模型。复杂网络结构特征量表明:北部陆地地区的夏季极端降水空间同步性好,而沿海地区的夏季极端降水空间同步性差。不同地区的格点与周围格点的关联空间范围不一样,沿海地区格点之间远距离连接少,关联空间范围小,北部陆地地区格点之间远距离连接多,关联空间范围较大。极端降水预测模拟结果显示沿海地区的预测准确率一般高于北部陆地地区,其原因是该地区极端降水强度大、降水密集度高且空间格点的平均连接距离小、直接关联性强。研究表明,从时、空记忆的角度构建的预测模型对东亚地区的极端降水具有一定的预测能力,在极端降水研究中存在一定的潜在应用价值。 相似文献
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