06 Fakultät Luft- und Raumfahrttechnik und Geodäsie

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Publication Type: search.filters.UBSTyp.Abschlussarbeit (Diplom)Author: search.filters.author.Bentel, Katrin

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    Empirical orthogonal function analysis of GRACE gravity data
    (2009) Bentel, Katrin
    The Gravity Recovery and Climate Experiment (GRACE) twin-satellite mission has been providing measurements of the time-varying gravity field of the Earth for almost seven years now. Gravity changes on Earth are due to mass changes and play an important role in Earth sciences. Monthly maps of mass changes are derived from the satellite measurements and need to be interpreted. The major difficulty in analyzing GRACE data are North-South stripes in the estimated gravity fields, caused by the fact that the GRACE satellites are flying in a near-polar orbit, one following the other. A microwave ranging instrument is measuring the distance between the two spacecraft, which is about 220 km. Due to these longitudinal stripes, major errors, analyzing the GRACE gravity fields is demanding. The technique of empirical orthogonal function (EOF) analysis is investigated in this thesis, and it is demonstrated the performance of EOF analysis for separating signal from noise and errors, and for identifying different sources of gravity changes in a real GRACE data set. EOF analysis is explained from a theoretical point of view and is applied to the GRACE data. Basically, the EOF method gives a transformation of the data into a new coordinate frame in the data space, where the axis are chosen according to the data variances. The core of the method is a singular value decomposition of the data matrix. The components obtained from this decomposition need to be interpreted, and signal has to be separated from noise. Additionally, EOF analysis can be used as a filtering tool. In the detailed data analysis, benefits and shortcomings of the EOF method are studied and described with respect to GRACE data. Global maps of mass changes as well as different smaller regions are analyzed, and global and regional results are compared.