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http://dx.doi.org/10.7848/ksgpc.2021.39.5.313

Time-series Analysis of Geodetic Reference Frame Aligned to International Terrestrial Reference Frame  

Bae, Tae-Suk (Dept. Geoinformation Engineering, Sejong University)
Hong, Chang-Ki (Dept. Geoinformatics Engineering, Kyungil University)
Lee, Jisun (Dept. Geoinformatics, University of Seoul)
Altamimi, Zuheir (Universite Paris Diderot)
Sillard, Patrick (Institut Geographique National)
Boucher, Claude (Institut Geographique National)
Publication Information
Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography / v.39, no.5, 2021 , pp. 313-319 More about this Journal
Abstract
The national geodetic reference frame of Korea was adopted in 2003, which is referenced to ITRF (International Terrestrial Reference Frame) 2000 at the epoch of January 1, 2002. For precise positioning based on the satellites, it should be thoroughly maintained to the newest global reference frame. Other than plate tectonic motion, there are significant events or changes such as earthquakes, antenna replacement, PSD (Post-Seismic Deformation), seasonal variation etc. We processed three years of GNSS (Global Navigation Satellite System) data(60 NGII CORS stations, 51 IGS core stations) to produce daily solutions minimally constrained to ITRF. From the time series of daily solutions, the sites with unexpected discontinuity were identified to set up an event(mostly antenna replacement). The combined solution with minimum constraints was estimated along with the velocity, the offsets, and the periodic signals. The residuals show that the surrounding environment also affects the time series to a certain degree, thus it should be improved eventually. The transformation parameters to ITRF2014 were calculated with stability and consistency, which means the national geodetic reference frame is properly aligned to the global reference frame.
Keywords
Global Navigation Satellite System; Minimum Constraints; Reference Frame; Transformation Parameters;
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  • Reference
1 Dach, R., Lutz, S., Walser, P., and Fridez, P. (2015), Bernese GNSS Software Version 5.2, Vol. 1, Austronomical Institute, University of Bern.
2 Jekeli, C. (2001), Geometric Reference Systems in Geodesy, Department of Civil and Environmental Engineering and Geodetic Science, Ohio State University.
3 NGII (2019), Enhancement of National Geodetic Network Using Space Geodetic Techniques (2nd), National Geographic Information Institute, Report No. 11-1613436-000211-01.
4 Altamimi, Z., Collilieux, X., Legrand, J., Garayt, B., and Boucher, C. (2007), ITRF2005: A new release of the International Terrestrial Reference Frame based on time series of station positions and Earth Orientation Parameters, Journal of Geophysical Research, Vol. 112, B09401.   DOI
5 Altamimi, Z., Rebischung, P., Metivier, L., and Collilieux, X. (2016), ITRF2014: A new release of the International Terrestrial Reference Frame modeling nonlinear station motions, Journal of Geophysical Research: Solid Earth, Vol. 121, pp. 6109-6131.   DOI
6 Lee, Y.-J., Lee, H.-K., Jeong, K.-H., and Cha, S.-H. (2008), Korean Geodetic Datum 2002(KGD2002): Nationwide GPS Network Densification, FIG Working Week 2008, Stockholm, Sweden, 14-19 June 2008.
7 GNSSDC (2019), GNSS data center, http://gnssdata.go.kr (last date accessed: 20 August 2019).
8 IGS (2019), IGS data center, http://igs.org (last date accessed: 10 September 2019).
9 Kim, S.-K. and Bae, T.-S. (2018), Long-Term GNSS Analysis for Local Geodetic Datum After 2011 Tohoku Earthquake, The Journal of Navigation, Vol. 71, No. 1, pp. 117-133.   DOI
10 NGII (2021), National Geographic Information Institute homepage, http://www.ngii.go.kr (last date accessed: 30 September 2021).
11 Steigenberger, P., Boehm, J., and Tesmer, V. (2009), Comparison of GMF/GPT with VMF1/ECMWF and implications for atmospheric loading, Journal of Geodesy, Vol. 83, pp. 943-951.   DOI