Investigation of the impact of ITRF2014/IGS14 on the positions of the reference stations in Europe - Publication - Bridge of Knowledge

Your account

login

Search

Investigation of the impact of ITRF2014/IGS14 on the positions of the reference stations in Europe

Abstract

In January 2017, the new realization of the International Terrestrial Reference Frame (ITRF) – ITRF2014, was released. Besides the higher accuracy and consistency of the new frame, an entirely new element – the post seismic deformation - was included. Moreover, the definition of the fundamental points has also been changed. All changes related to the new reference frame haveconsequences in the precise positioning using GNSS observations. In this paper, on the basis of results and analysis obtained from Bernese 5.2 software package, the most important changes, related to GNSS data processing are presented. Our analysis confirmedthat the differences between ITRF2008 and ITRF2014 are minor. However, changing GNSS antenna calibrations from IGb08 to IGS14 causes changes of stations coordinates up to several millimeters, especially for the vertical component. This effect is mainly due to the introduction of new or updated absolute antenna calibrations. Such changes of coordinates have also impact on the realizationof the European Terrestrial Reference Frame (ETRF).

Citations

  • 1 1

    CrossRef

  • 0

    Web of Science

  • 1 0

    Scopus

Authors (2)

Cite as

Full text

download paper
downloaded 250 times
Publication version
Accepted or Published Version
License
Creative Commons: CC-BY-NC-ND open in new tab

Keywords

Details

Category:
Articles
Type:
artykuł w czasopiśmie wyróżnionym w JCR
Published in:
Acta Geodynamica et Geomaterialia no. 14, pages 401 - 410,
ISSN: 1214-9705
Language:
English
Publication year:
2017
Bibliographic description:
Figurski M., Nykiel G.: Investigation of the impact of ITRF2014/IGS14 on the positions of the reference stations in Europe// Acta Geodynamica et Geomaterialia. -Vol. 14, nr. 43 (2017), s.401-410
DOI:
Digital Object Identifier (open in new tab) 10.13168/agg.2017.0021
Bibliography: test
  1. Dach, R., Lutz, S., Walser, P. and Fridez, P. (Eds): 2015, Bernese GNSS Software Version 5.2. User manual, Astronomical Institute, University of Bern. EUREF: 2016, Guidelines for the EPN Analysis Centres, http://www.epncb.oma.be/_documentation/guidelines/ Hugentobler, U.: 2005, Models in GNSS data analysis, COMET -Advances in GPS Data Processing and Modeling for Geodynamics, University College London. open in new tab
  2. Kaminski, P., Figurski, M., Szafranek, K. and Kroszczyński, K.: 2010, Frequency and phase analysis of daily reprocessed solutions from selected EPN stations relating to geological phenomena. Acta Geodyn. Geomater., 7, 3 (159), 281-293.
  3. Rebischung, P.: 2011, Upcoming switch to IGS08/igs08.atx, IGSMAIL No. 6354, 7th March.
  4. Rebischung, P., Altamimi, Z., Ray, J. and Garayt, B.: 2016, The IGS contribution to ITRF2014. J. Geod., 90, 7, 611-630. DOI: 10.1007/s00190-016-0897-6 open in new tab
  5. Rebischung, P. and Schmid, R.: 2016, IGS14/igs14.atx: a new framework for the IGS products, AGU Fall Meeting, San Francisco, CA.
  6. Seidelmann, P.K.: 1982, 1980 IAU Nutation: The Final Report of the IAU Working Group on Nutation, Celestial Mechanics, 27, 1, 79-106. open in new tab
  7. Szafranek, K., Bogusz, J. and Figurski, M.: 2013, Configuration of the reference stations as the element of national reference frame reliability. Acta Geodyn. Geomater., 11, 1(173), 5-15. DOI: 10.13168/AGG.2013.0050 open in new tab
  8. Wöppelmann, G., Bouin, M.-N. and Altamimi, Z.: 2008, Terrestrial Reference Frame implementation in global GPS analysis at TIGA ULR consortium. Phys. Chem. Earth, 33, 3-4, 217-224. DOI: 10.1016/j.pce.2006.11 open in new tab
  9. 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. J. Geophys. Res., 112, B09401. DOI: 10.1029/2007JB004949 open in new tab
  10. Altamimi, Z. and Collilieux, X.: 2009, IGS contribution to ITRF. J. Geod., 83, 3-4, 375-383. DOI: 10.1007/s00190-008-0294-x open in new tab
  11. Altamimi, Z., Collilieux, X. and Métivier, L.: 2011, ITRF2008: an improved solution of the International Terrestrial Reference Frame. J. Geod., 85, 8, 457-473. DOI: 10.1007/s00190-011-0444-4 open in new tab
  12. Altamimi, Z.: 2012, Role and importance of the International Terrestrial Reference Frame (ITRF) for sustainable development. ICG-7: Seventh Meeting of the International Committee on GNSS, Beijing, China. open in new tab
  13. Altamimi, Z., Rebischung, P., Métivier, L. and Collilieux, X.: 2016, ITRF2014: A new release of the International Terrestrial Reference Frame modeling nonlinear station motions. J. Geophys. Res., Solid Earth, 121, 6109-6131. DOI: 10.1002/2016JB013098 open in new tab
  14. Drewes, H.: 2009, Reference systems, reference frames and geodetic datum -Basic considerations. IAG Symposia, 133, Sideris, M. G. (Ed.): Observing our Changing Earth, 3-9. open in new tab
Verified by:
Gdańsk University of Technology

seen 286 times

Recommended for you

GNSS reference solution for permanent sition stability monitoring and geodynamical investigations - the ASG-EUPOS case study

2013

A Method for Determination and Compensation of a Cant Influence in a Track Centerline Identification Using GNSS Methods and Inertial Measurement

2019

Analysis of GNSS, Hydroacoustic and Optoelectronic Data Integration Methods Used in Hydrography

2021

High precision and accuracy using low cost GNSS receivers and supporting technologies

2017
Meta Tags