MSSA of globally gridded OAM from ECCO, AAM from ECMWF, and gravity from GRACE

机译：ECCO的全球网格OAM的MSSA，ECMWF的AAM以及GRACE的重力

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Multichannel singular spectrum analysis (MSSA) is applied to the globally gridded oceanic angular momentum (OAM) data from ECCO (KF080) model, Atmospheric Angular Momentum from ECMWF model, and Earth gravity field from GRACE satellites. Principal components of the oceanic, atmospheric, and hydrological changes and their influence on the rotation of the Earth (polar motion PM and length of day LOD) are extracted. The regions where mass and motion terms make the largest input into PM excitation and LOD changes are identified. The trends, annual, and other global-scale modes are separated. Multichannel singular spectrum analysis is found to be a promising method for signal filtering and modes decomposition. Possible connections between climate change and Earth rotation are discussed.

机译：将多通道奇异频谱分析（MSSA）应用于ECCO（KF080）模型的全球网格化海洋角动量（OAM）数据，ECMWF模型的大气角动量数据以及GRACE卫星的地球重力场。提取了海洋，大气和水文变化的主要成分及其对地球自转的影响（极运动PM和日LOD长度）。确定了质量项和运动项是PM激励和LOD变化最大的输入区域。趋势，年度和其他全球规模模式是分开的。发现多通道奇异频谱分析是一种有前途的信号滤波和模式分解方法。讨论了气候变化与地球自转之间的可能联系。

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来源
《2016 Third International Conference on Digital Information Processing, Data Mining, and Wireless Communications》|2016年|127-132|共6页
会议地点 Moscow(RU)
作者
Leonid Zotov; Elena Scheplova;
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作者单位

National Research University Higher School of Economics, Moscow, Russia;

National Research University Higher School of Economics, Moscow, Russia;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Active appearance model; Earth; Market research; Oceans; Atmospheric modeling; Meteorology; Gravity;

机译：活动外观模型;地球;市场研究;海洋;大气建模;气象;重力;

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专利

1. Tongji‐Grace02s and Tongji‐Grace02k: High‐Precision Static GRACE‐Only Global Earth's Gravity Field Models Derived by Refined Data Processing Strategies [J] . Chen Qiujie, Shen Yunzhong, Francis Olivier, Journal of geophysical research. Solid earth: JGR . 2018,第7期

机译：同济乐园02s和同济乐园02K：高精度静态宽限宽度全球地球的重力场模型由精细数据处理策略导出
2. Spatiospectral localization of global geopotential fields from the Gravity Recovery and Climate Experiment (GRACE) reveals the coseismic gravity change owing to the 2004 Sumatra-Andaman earthquake [J] . Shin-Chan Han, Frederik J. Simons Journal of geophysical research. Solid earth: JGR . 2008,第b1期

机译：重力恢复和气候实验（GRACE）对全球地势场的时空光谱定位揭示了2004年苏门答腊-安达曼地震引起的同震重力变化
3. Surface mass redistribution inversion from global GPS deformation and Gravity Recovery and Climate Experiment (GRACE) gravity data [J] . J. Kusche, E. J. O. Schrama Journal of geophysical research. Solid earth: JGR . 2005,第b9期

机译：来自全球GPS变形和重力回收和气候实验（Grace）重力数据的表面质量再分配反转
4. MSSA of globally gridded OAM from ECCO, AAM from ECMWF, and gravity from GRACE [C] . Leonid Zotov, Elena Scheplova Conference on Digital Information Processing, Data Mining, and Wireless Communications . 2016

机译：来自Ecco，来自Ecmwf的AAM的全球网格奥姆的MSSA，以及恩典的重力
5. A globally distributed grid monitoring system to facilitate high-performance computing at DO/SAM-grid (design, development, implementation and deployment of a prototype). [D] . Rana, Abhishek Singh. 2002

机译：全球分布的网格监视系统，可促进DO / SAM网格的高性能计算（原型的设计，开发，实施和部署）。
6. ECMWF global coupled atmosphere ocean and sea-ice dataset for the Year of Polar Prediction 2017–2020 [O] . Peter Bauer, Irina Sandu, Linus Magnusson, 2020

机译：ECMWF全球耦合大气海洋和海冰数据集2017-2020
7. Correction of inconsistencies in ECMWF's operational analysis data during de-aliasing of GRACE gravity models [O] . E. Fagiolini, F. Flechtner, M. Horwath, 2015

机译：纠正ECMWF运营分析数据在雍容重力模型的解除叠加期间的不一致
8. GRACE gravity model: assssment in terms of deep ocean currents from hydrography and from the ECCO ocean model [R] . Zlotnicki, V., Stammer, D., Fukumori, I. 2003

机译：GRaCE引力模型：根据水文和ECCO海洋模型对深海洋流进行评估

MSSA of globally gridded OAM from ECCO, AAM from ECMWF, and gravity from GRACE

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