Kinematic and reduced-dynamic precise orbit determination of low earth orbiters D Švehla, M Rothacher Advances in Geosciences 1, 47-56, 2003 | 274 | 2003 |
Einstein Gravity Explorer–a medium-class fundamental physics mission S Schiller, GM Tino, P Gill, C Salomon, U Sterr, E Peik, A Nevsky, A Görlitz, ... Experimental astronomy 23, 573-610, 2009 | 142 | 2009 |
A CHAMP‐only gravity field model from kinematic orbits using the energy integral C Gerlach, L Földvary, D Švehla, T Gruber, M Wermuth, N Sneeuw, ... Geophysical Research Letters 30 (20), 2003 | 123 | 2003 |
Precise orbit determination for the GOCE satellite using GPS H Bock, A Jäggi, D Švehla, G Beutler, U Hugentobler, P Visser Advances in Space Research 39 (10), 1638-1647, 2007 | 116 | 2007 |
Kinematic precise orbit determination for gravity field determination D Švehla, M Rothacher IAG Symposia vol. 128: A Window on the Future of Geodesy 128, 181-188, 2005 | 112 | 2005 |
CHAMP gravity field recovery using the energy balance approach C Gerlach, N Sneeuw, P Visser, D Švehla Advances in Geosciences 1, 73-80, 2003 | 85 | 2003 |
Kinematic orbit determination of LEOs based on zero or double-difference algorithms using simulated and real SST GPS data D Švehla, M Rothacher IAG Symposia vol. 125: Vistas for geodesy in the new millennium 125, 322-328, 2002 | 79 | 2002 |
Precise orbit determination for the FORMOSAT-3/COSMIC satellite mission using GPS C Hwang, TP Tseng, T Lin, D Švehla, B Schreiner Journal of Geodesy 83, 477-489, 2009 | 75 | 2009 |
Kinematic positioning of LEO and GPS satellites and IGS stations on the ground D Švehla, M Rothacher Advances in Space Research 36 (3), 376-381, 2005 | 59 | 2005 |
Astrodynamical Space Test of Relativity using Optical Devices I (ASTROD I)—a class-M fundamental physics mission proposal for cosmic vision 2015–2025: 2010 Update C Braxmaier, H Dittus, B Foulon, E Göklü, C Grimani, J Guo, S Herrmann, ... Experimental Astronomy 34, 181-201, 2012 | 52 | 2012 |
Quality assessment of FORMOSAT-3/COSMIC and GRACE GPS observables: analysis of multipath, ionospheric delay and phase residual in orbit determination C Hwang, TP Tseng, TJ Lin, D Švehla, U Hugentobler, BF Chao GPS solutions 14, 121-131, 2010 | 51 | 2010 |
Gravity model TUM-2Sp based on the energy balance approach and kinematic CHAMP orbits L Földváry, D Švehla, C Gerlach, M Wermuth, T Gruber, R Rummel, ... Earth observation with CHAMP: results from three years in orbit, 13-18, 2005 | 49 | 2005 |
Orbit determination for the GOCE satellite PNAM Visser, J Van den IJssel, T Van Helleputte, H Bock, A Jäggi, ... Advances in Space Research 43 (5), 760-768, 2009 | 47 | 2009 |
CHAMP gravity field recovery with the energy balance approach: first results C Gerlach, N Sneeuw, P Visser, D Švehla First CHAMP Mission Results for Gravity, Magnetic and Atmospheric Studies …, 2003 | 45 | 2003 |
CHAMP double-difference kinematic POD with ambiguity resolution D Švehla, M Rothacher First CHAMP Mission Results for Gravity, Magnetic and Atmospheric Studies, 70-77, 2003 | 40 | 2003 |
Geometrical theory of satellite orbits and gravity field D Svehla Springer Nature, 2018 | 29 | 2018 |
A first attempt at time variable gravity recovery from CHAMP using the energy balance approach N Sneeuw, C Gerlach, D Svehla, C Gruber Gravity and Geoid: Proceedings of 3rd Meeting of the International Gravity …, 2003 | 22 | 2003 |
One year of time-variable CHAMP-only gravity field models using kinematic orbits N Sneeuw, C Gerlach, L Földváry, T Gruber, T Peters, R Rummel, ... IAG Symposia vol. 128: A Window on the Future of Geodesy 128, 288-293, 2005 | 18 | 2005 |
From kinematic orbit determination to derivation of satellite velocity and gravity field D Švehla, L Földváry Observation of the Earth System from Space, 177-192, 2006 | 17 | 2006 |
NAPEOS: The ESA/ESOC tool for space geodesy T Springer, F Dilssner, D Escobar, C Flohrer, O Otten, D Svehla, ... Geophysical Research Abstracts 13, EGU2011-8287, 2011 | 16 | 2011 |