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R. Ferland (2002)
Activities of the International GPS Service (IGS) Reference Frame Working Group
K. Kaniuth, H. Müller, W. Seemüller (2002)
Displacement of the space geodetic observatory Arequipa due to recent earthquakes
D. Angermann, H. Müller, M. Gerstl (2002)
Geocenter variations derived from SLR data to LAGEOS 1 and 2
D. Angermann, M. Gerstl, R. Kelm, H. Müller, W. Seemüller, M. Vei (2002)
Time evolution of an SLR reference frameAdvances in Space Research, 30
J. Klotz, G. Khazaradze, D. Angermann, C. Reigber, R. Perdomo, O. Cifuentes (2001)
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M. Rothacher (2002)
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J. Klotz, D. Angermann, G. Michel, R. Porth, C. Reigber, J. Reinking, J. Viramonte, R. Perdomo, V. Ríos, S. Barrientos, R. Barriga, O. Cifuentes (1999)
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G. Blewitt (2003)
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K. Kaniuth (2002)
An assessment of radome effects on height estimates in the EUREF network
[This paper investigates the time evolution of the terrestrial reference frame (TRF). We analysed time series of site positions and datum parameters obtained from VLBI, SLR, GPS and DORIS solutions with respect to non-linear motions (e.g. jumps, seasonal signals) and systematic differences. The time series of the translation and scale parameters were used to identify solution- and technique-related problems, and to investigate the contribution of the different techniques to realise the TRF origin and scale. The position time series reveal non-linear motions and jumps for many sites, which have to be considered for future TRF realisations.]
Published: Jan 1, 2005
Keywords: Terrestrial Reference Frame; ITRF; VLBI; SLR; GPS; DORIS; analysis of time series
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