References
- Ditmar P., Klees R. (2002) A method to compute the Earth's gravity field from SGG/SST data to be acquired by the GOCE satellite. Delft University Press, Delft, Netherlands.
- Ditmar P., Klees R., Kostenko F. (2003) Fast and accurate computation of spherical harmonic coefficients from satellite gradiometry data. Journal of Geodesy, Vol. 76, No. 11-12, pp. 690-705.
- ESA (2003) ESA's gravity mission GOCE. BR-209, ESA Publication Division, Netherlands.
- Holmes S. A., Featherstone W. E. (2002) A unified approach to the Clenshaw summation and the recursive computation of very high degree and order normalized associated Legendre functions. Journal of Geodesy, Vol. 76, No. 8, pp. 279-299.
- Heiskanen W. A., Moritz H. (1967) Physical Geodesy. Freeman and Company, San Francisco.
- Ilk K. H. (1983) Ein Beitrag zur Dynamik ausgedehnter Körper - Gravitationswechselwirkung. Deutsche Geodätische Kommission, Reihe C, Heft No. 288, München.
- Kaula W. M. (1966) Theory of Satellite Geodesy. Blaisdell Publishing Company, Waltham, Massachusetts.
- Klees R., Koop R., Visser P., van den IJssel J. (2000a) Efficient gravity field recovery from GOCE gravity gradient observations. Journal of Geodesy, Vol. 74, pp. 561-571.
- Klees R., Koop R., Visser P., van den IJssel J. (2000b) Data analysis for the GOCE mission. International Association of Geodesy Symposia, Vol. 121, (Ed. Schwarz) Geodesy Beyond 2000 - The Challenges of the First Decade, pp. 69-74.
- Koop R. (1993) Global gravity field modelling using satellite gravity gradiometry. Publ. Geodesy, New series, No. 38, Netherlands Geodetic Commission, Delft.
- Pail R., Plank G. (2002) Assessment of three numerical solution strategies for gravity field recovery from GOCE satellite gravity gradiometry implemented on a parallel platform. Journal of Geodesy, Vol. 76, No. 8, pp. 462-474.
- Petrovskaya M. S., Vershkov A. N. (2006) Non-singular expressions of the gravity gradients in the local north-oriented and orbital reference frames. Journal of Geodesy, Vol. 80, No. 3, pp. 117-127.
- Reed G. B. (1973) Application of kinematical geodesy for determining the short wave length components of the gravity field by satellite gradiometry. Ohio State University, Dept. of Geod. Sciences, Rep. No. 201, Columbus, Ohio.
- Rummel R., Sansò F., van Gelderen M., Koop R., Schrama E., Brovelli M., Migliaccio F., Sacerdote F. (1993) Spherical harmonic analysis of satellite gradiometry. Publ. Geodesy, New Series, No. 39, Netherlands Geodetic Commission, Delft.
- Smart W. M. (1953) Celestial Mechanics. Longmans, Green and Co, London - New York - Toronto.
- Sneeuw N. (1991) Inclination functions. Group Theoretical Background and a Recursive Algorithm, Department of Mathematical and Physical Geodesy, Rep. 91.2, Delft University of Technology.
- Sneeuw N. (1992) Representation coefficients and their use in satellite geodesy. Manuscripta Geodaetica, Vol.17, pp. 117-123.
- Sneeuw N. (2000) A semi-analytical approach to gravity field analysis from satellite observations. Reihe C, Heft Nr. 527, Deutsche Geodätische Kommission, München.
- Sneeuw N., Dorobantu R., Gerlach C., Müller J., Oberndorfer H., Rummel R., Koop R., Visser P., Hoyng P., Selig A., Smit M. (2001) Simulation of the GOCE gravity field mission. In: Benciolini B. (ed.) IV Hotine-Marussi Symposium on Mathematical Geodesy. IAG Symposia Vol. 122, Springer, Berlin - Heidelberg - New York, pp. 14-20.
- Vermeer M. (1990) Observable quantities in satellite gradiometry. Bull. Gód., Vol. 64, pp. 347-361.