TY - GEN

T1 - Validation of GOCE gravitational gradients in satellite track cross-overs

AU - Brieden, Phillip

AU - Müller, Jürgen

N1 - Funding information: This work was supported by the German Federal Ministry of Education and Research (BMBF) in the framework of the GEOTECHNOLOGIEN research program under the projects REAL GOCE (Grant 03G0726C) and Future Missions (Grant 03G0729C).

PY - 2014

Y1 - 2014

N2 - The important issue of quality assessment of GOCE gravitational gradients is addressed. The validation approach that is investigated compares measured gravitational gradients in satellite track cross-overs (XOs). Important updates and changes of our previous XO processing are presented: XO comparison has to be performed in one and the same coordinate system, which necessitates the transformation of the gravitational gradient tensor. As two of the six independent tensor components are less accurate and the remaining four components contain long-periodic inaccuracies, filtering of the gradient time series and the use of model information is required to enable tensor rotation without loss of accuracy. The second part of the paper focuses on the analysis of residual gradient differences in cross-overs. RMS values and the geographical distribution of the XO residuals are used to assess the GOCE gravitational gradients’ quality. The RMS values of the XO residuals are about 3.2 mE for Vxx and Vyy, and 5.3 mE for Vzz. Areas are identified showing an accumulation of slightly larger XO residuals for individual tensor components. These larger residuals are probably caused by solar winds and an interaction of the accelerometers with the Earth’smagnetic field. In summary, the high quality of the GOCE gravitational gradients is confirmed.

AB - The important issue of quality assessment of GOCE gravitational gradients is addressed. The validation approach that is investigated compares measured gravitational gradients in satellite track cross-overs (XOs). Important updates and changes of our previous XO processing are presented: XO comparison has to be performed in one and the same coordinate system, which necessitates the transformation of the gravitational gradient tensor. As two of the six independent tensor components are less accurate and the remaining four components contain long-periodic inaccuracies, filtering of the gradient time series and the use of model information is required to enable tensor rotation without loss of accuracy. The second part of the paper focuses on the analysis of residual gradient differences in cross-overs. RMS values and the geographical distribution of the XO residuals are used to assess the GOCE gravitational gradients’ quality. The RMS values of the XO residuals are about 3.2 mE for Vxx and Vyy, and 5.3 mE for Vzz. Areas are identified showing an accumulation of slightly larger XO residuals for individual tensor components. These larger residuals are probably caused by solar winds and an interaction of the accelerometers with the Earth’smagnetic field. In summary, the high quality of the GOCE gravitational gradients is confirmed.

KW - Cross-over

KW - GOCE

KW - Gravitational gradient

KW - Quality assessment

KW - Tensor rotation

KW - Validation

UR - http://www.scopus.com/inward/record.url?scp=84927642127&partnerID=8YFLogxK

U2 - 10.1007/978-3-642-37222-3__53

DO - 10.1007/978-3-642-37222-3__53

M3 - Conference contribution

AN - SCOPUS:84927642127

T3 - International Association of Geodesy Symposia

SP - 399

EP - 405

BT - Earth on the Edge

A2 - Rizos, Chris

A2 - Willis, Pascal

PB - Springer Verlag

T2 - International Association of Geodesy Symposia, IAG 2011

Y2 - 28 June 2011 through 2 July 2011

ER -