On the Charney Conjecture of Data Assimilation Employing Temperature Measurements Alone: The Paradigm of 3D Planetary Geostrophic Model

Mathematics of Climate and Weather Forecasting Pub Date : 2016-08-16 DOI:10.1515/mcwf-2016-0004
A. Farhat, E. Lunasin, E. Titi
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引用次数: 63

Abstract

Abstract Analyzing the validity and success of a data assimilation algorithmwhen some state variable observations are not available is an important problem in meteorology and engineering. We present an improved data assimilation algorithm for recovering the exact full reference solution (i.e. the velocity and temperature) of the 3D Planetary Geostrophic model, at an exponential rate in time, by employing coarse spatial mesh observations of the temperature alone. This provides, in the case of this paradigm, a rigorous justification to an earlier conjecture of Charney which states that temperature history of the atmosphere, for certain simple atmospheric models, determines all other state variables.
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单用温度测量数据同化的Charney猜想:三维行星地转模式范式
在某些状态变量观测数据不可用的情况下,如何分析同化算法的有效性和成功性是气象学和工程中的一个重要问题。我们提出了一种改进的数据同化算法,用于恢复三维行星地转模型的精确完整参考解(即速度和温度),在时间上以指数速率,仅使用温度的粗空间网格观测。在这种情况下,这为Charney早期的猜想提供了一个严格的证明,该猜想指出,对于某些简单的大气模型,大气的温度历史决定了所有其他状态变量。
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Mathematics of Climate and Weather Forecasting
Mathematics of Climate and Weather Forecasting
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