Further Reading

  • European GOCE gravity consortium (2012) GOCE High level Processing Facility  GOCE Standards, Gruber T, Abrikosov O, Hugentobler U (Eds.), Document GO-TN-HPF-GS-011
  • Groten, E. (2004) Fundamental parameters and current (2004) best estimates of the parameters of common relevance to astronomy, geodesy, and geodynamics. J Geod 77, 724-731, doi:10.1007/s00190-003-0373-y
  • Kutterer H, Neilan R, Bianco G (2012) Global Geodetic Observing System (GGOS).  In: Drewes H, Hornik H, Adam J, Rozsa S (Eds.), The Geodesists Handbook 2012. J Geod 86(10), 915-926, doi:10.1007/s00190-012-0584-1
  • Luzum B, Capitaine N, Fienga A, Folkner W, Fukushima T, Hilton J, Hohenkerk C, Krasinski G, Petit G, Pitjeva E (2011)  The IAU 2009 system of astronomical constants: report of the IAU working group on numerical standards for Fundamental Astronomy, Cel Mech Dynam Astron 110(4), 293.
  • Moritz H (2000) Geodetic Reference System 1980, J Geod 74, 128-162, doi:10.1007/ s001900050278
  • Petit G, Luzum B (2010) IERS Conventions 2010. IERS Technical Note No. 36, Frankfurt am Main
  • Plag HP, Pearlman M (2009) Global Geodetic Observing System - Meeting the requirements of a global society on a changing planet in 2020, Springer, doi:10.1007/978-3-642-02687-4
  • Rummel R (2000) Global Integrated Geodetic and Geodynamic Observing System (GIGGOS);  In: Rummel R, Drewes H, Bosch W, Hornik H (Eds.) Towards an Integrated Global Geodetic Observing System (IGGOS), IAG Symposia 120, 253-260, doi:10.1007/978-3-642-59745-9
  • Sánchez L. (2012) Towards a vertical datum standardisation under the umbrella of Global Geodetic Observing System. Journal of Geodetic Science 2(4), 325-342, doi:10.2478/v10156-012-0002-x