Toward a strongly coupled assimilation in the ESPC system

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
M. Yaremchuk, C. N. Barron, W. Crawford, C. DeHaan, C. Rowley, B. Ruston, T. Townsend
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引用次数: 0

Abstract

In this study we assess a possibility to efficiently represent the strongly coupled increment in an ocean‐atmosphere coupled data assimilation (DA) system by applying an iterative procedure involving uncoupled solvers and the weakly coupled analysis as a first guess approximation to the strongly coupled increment. Using the output of the ensemble‐based weakly coupled DA system, we explore convergence of the approximations to the strongly coupled DA solution by applying the uncoupled solver to a sequence of innovation vectors at various spacetime locations over the global ocean grid. The results demonstrate that, in general, fewer than two iterations are required to approximate the coupled increment in the majority of the tested locations with sufficient (3%) accuracy given the uncertainty of the background error covariance estimated from the limited number of the ensemble members. We assess the impact of data thinning and hybridization of the background error covariance model on the convergence of the iterative approximations to the strongly coupled increment. An empirical relationship between the spectral radius of the expansion matrix and convergence rate is obtained. This article is protected by copyright. All rights reserved.
ESPC系统的强耦合同化
在本研究中,我们评估了在海洋-大气耦合数据同化(DA)系统中有效表示强耦合增量的可能性,方法是采用包含非耦合解算器和弱耦合分析的迭代过程作为强耦合增量的第一猜测近似。利用基于集合的弱耦合数据分析系统的输出,我们通过将非耦合求解器应用于全球海洋网格上不同时空位置的创新向量序列,探索了强耦合数据分析解的近似收敛性。结果表明,一般情况下,考虑到背景误差协方差的不确定性,从有限数量的集成成员估计,在大多数测试位置以足够(3%)的精度近似耦合增量需要少于两次迭代。我们评估了数据细化和背景误差协方差模型的杂交对迭代逼近强耦合增量收敛性的影响。得到了展开式矩阵的谱半径与收敛速率之间的经验关系。这篇文章受版权保护。版权所有。
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
CiteScore
16.80
自引率
4.50%
发文量
163
审稿时长
3-8 weeks
期刊介绍: The Quarterly Journal of the Royal Meteorological Society is a journal published by the Royal Meteorological Society. It aims to communicate and document new research in the atmospheric sciences and related fields. The journal is considered one of the leading publications in meteorology worldwide. It accepts articles, comprehensive review articles, and comments on published papers. It is published eight times a year, with additional special issues. The Quarterly Journal has a wide readership of scientists in the atmospheric and related fields. It is indexed and abstracted in various databases, including Advanced Polymers Abstracts, Agricultural Engineering Abstracts, CAB Abstracts, CABDirect, COMPENDEX, CSA Civil Engineering Abstracts, Earthquake Engineering Abstracts, Engineered Materials Abstracts, Science Citation Index, SCOPUS, Web of Science, and more.
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