Variability of SST through Koopman modes

IF 4.8 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Antonio Navarra, Joe Tribbia, Stefan Klus, Paula Lorenzo-Sánchez
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引用次数: 0

Abstract

Abstract The majority of dynamical systems arising from applications show a chaotic character. This is especially true for climate and weather applications. We present here an application of Koopman operator theory to tropical and global SST that yields an approximation to the continuous spectrum typical of these situations. We also show that the Koopman modes yield a decomposition of the data sets that can be used to categorize the variability. Most relevant modes emerge naturally and they can be identified easily. A difference with other analysis methods such as EOF or Fourier expansion is that the Koopman modes have a dynamical interpretation thanks to their connection to the Koopman operator and they are not constrained in their shape by special requirements such as orthogonality (as it is the case for EOF) or pure periodicity (as in the case of Fourier expansions). The pure periodic modes emerge naturally and they form a subspace that can be interpreted as the limiting subspace for the variability. The stationary states therefore are the scaffolding around which the dynamics takes place. The modes can also be traced to the NINO variability and in the case of the global SST to the PDO.
通过库普曼模式实现的海温变化
摘要 应用中产生的大多数动力系统都具有混沌特性。在气候和天气应用中尤其如此。我们在此介绍库普曼算子理论在热带和全球 SST 中的应用,它产生了这些情况下典型的连续谱近似值。我们还展示了库普曼模式对数据集的分解,可用于对变异性进行分类。大多数相关模式会自然出现,而且很容易识别。库普曼模式与 EOF 或傅立叶展开等其他分析方法的不同之处在于,库普曼模式与库普曼算子相关联,因此具有动态解释功能,其形状不受正交性(如 EOF 的情况)或纯周期性(如傅立叶展开的情况)等特殊要求的限制。纯周期模式会自然出现,并形成一个子空间,可解释为可变性的极限子空间。因此,静止态是动力学发生的支架。这些模式也可以追溯到 NINO 变率,在全球海温的情况下,可以追溯到 PDO。
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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来源期刊
Journal of Climate
Journal of Climate 地学-气象与大气科学
CiteScore
9.30
自引率
14.30%
发文量
490
审稿时长
7.5 months
期刊介绍: The Journal of Climate (JCLI) (ISSN: 0894-8755; eISSN: 1520-0442) publishes research that advances basic understanding of the dynamics and physics of the climate system on large spatial scales, including variability of the atmosphere, oceans, land surface, and cryosphere; past, present, and projected future changes in the climate system; and climate simulation and prediction.
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