强迫和环流型态对不同尺度平均温度的影响:神经网络模拟分析

2004 IEEE International Conference onComputational Intelligence for Measurement Systems and Applications, 2004. CIMSA. Pub Date : 2004-07-14 DOI:10.1109/CIMSA.2004.1397229

A. Pasini, M. Loré, F. Ameli

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引用次数: 2

摘要

我们分析了过去在全球和区域尺度上观测到的各种强迫和环流型态对年和季节温度的影响。在这个框架中，多层感知器显示了它们完全捕捉这些变量之间非线性关系的能力，并允许我们“加权”温度行为的不同原因的大小。特别是，我们的结果表明，在解释全球尺度上的温度行为时，有必要包括人为输入。此外，我们还可以评估全球强迫和区域环流型对确定区域温度趋势的相对影响。因此，这项活动对于确定成功地缩小大气-海洋环流模式的基本要素，甚至在未来的情景中，是非常有用的。

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Influence of forcings and circulation patterns on mean temperatures at different scales: an analysis by neural network modeling

We present an analysis of the influence of various forcings and circulation patterns on annual and seasonal temperatures observed in the past, both at global and regional scales. In this framework, multilayer perceptrons show their ability to fully catch nonlinear relationships among these variables and allow us to "weight" the magnitude of different causes on the temperature behavior. In particular, our results show the necessity of including anthropogenic inputs for explaining the temperature behavior at global scale. Furthermore, we can assess the relative influences of global forcings and regional circulation patterns in determining regional temperature trends. Therefore, this activity can be very useful in order to identify the fundamental elements for a successful downscaling of Atmosphere-Ocean General Circulation Models, even on future scenarios.

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来源期刊

2004 IEEE International Conference onComputational Intelligence for Measurement Systems and Applications, 2004. CIMSA.

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