Logo
ICGEM Home

Gravity Field Models

Static Models Temporal Models Topographic Gravity Field Models

Calculation Service

Regular grids User-defined points

3D Visualisation

Static Models Temporal Models Trend & Amplitude Spherical Harmonics

Evaluation

Spectral domain GNSS Leveling

Documentation

FAQ Theory References Latest Changes Discussion Forum

Other Celestial Bodies
(Moon,Venus, Mars)

Table of Models 3D Visualization Calculation Service
Login
iaglogo gfzlogo icgemlogo
  • Akyilmaz, O., Ustun, A., Aydin, C., Arslan, N., Doganalp, S., Guney, C., Mercan, H., Uygur, S.O., Uz, M., Yagci, O.;
    High Resolution Gravity Field Determination and Monitoring of Regional Mass Variations using Low-Earth Orbit Satellites;
    Quelle nicht nachvollziehbar, zu aktuelle? Wo erschienen?, 2016
  • Andersen, Ole B., Knudsen, Per;
    DNSC08 mean sea surface and mean dynamic topography models;
    Journal of Geophysical Research, Vol 114, No. C11, doi: 10.1029/2008jc005179, 2009
  • Balmino, G., Reigber, C., Moynot, B.;
    A Geopotential Model Determined from Recent Satellite Observation Campaigns (GRIM1);
    Manuscripta Geodaetica, Vol 1, p. 41-69, 1976
  • Balmino, G., Reigber, C., Moynot, B.;
    The GRIM2 Earth Gravity Field Model;
    Deutsche Geodätische Kommission, Vol 86, München, 1976
  • Bettadpur, S., Ries, J., Eanes, R., Nagel, P., Pie, N., Poole, S., Richter, T., Save, H.;
    Evaluation of the GGM05 Mean Earth Gravity models;
    Geophysical Research Abstracts, Vol. 17, EGU2015-4153, 2015, Vienna, Austria, 2015
  • Biancale, R., Balmino, G., Lemoine, J. M., Marty, J. C., Moynot, B., Barlier, F., Exertier, P., Laurain, O., Gegout, P., Schwintzer, P., Reigber, C., Bode, A., Konig, R., Massmann, F. H., Raimondo, J. C., Schmidt, R., Zhu, S. Y.;
    A new global Earth's gravity field model from satellite orbit perturbations: GRIM5-S1;
    Geophysical Research Letters, Vol 27, No. 22, p. 3611-3614, doi: 10.1029/2000gl011721, 2000
  • Brockmann, J. M., Zehentner, N., Hock, E., Pail, R., Loth, I., Mayer-Gurr, T., Schuh, W. D.;
    EGM_TIM_RL05: An independent geoid with centimeter accuracy purely based on the GOCE mission;
    Geophysical Research Letters, Vol 41, No. 22, p. 8089-8099, doi: 10.1002/2014gl061904, 2014
  • Bruinsma, S. L., Forste, C., Abrikosov, O., Marty, J. C., Rio, M. H., Mulet, S., Bonvalot, S.;
    The new ESA satellite-only gravity field model via the direct approach;
    Geophysical Research Letters, Vol 40, No. 14, p. 3607-3612, doi: 10.1002/grl.50716, 2013
  • Bruinsma, S.L., Marty, J.C., Balmino, G., Biancale, R., Foerste, C., Abrikosov, O., Neumayer, H.;
    GOCE Gravity Field Recovery by Means of the Direct Numerical Method;
    ESA Publications Division, Norwijk, The Nethelands, Vol SP 686, Bergen, Norway, 2010
  • Bruinsma, Sean, Lemoine, Jean-Michel, Biancale, Richard, Valès, Nicole;
    CNES/GRGS 10-day gravity field models (release 2) and their evaluation;
    Advances in Space Research, Vol 45, No. 4, p. 587-601, doi: 10.1016/j.asr.2009.10.012, 2010
  • Bruinsma, Sean L., Förste, Christoph, Abrikosov, Oleg, Lemoine, Jean-Michel, Marty, Jean-Charles, Mulet, Sandrine, Rio, Marie-Helene, Bonvalot, Sylvain;
    ESA's satellite-only gravity field model via the direct approach based on all GOCE data;
    Geophysical Research Letters, Vol 41, No. 21, p. 7508-7514, doi: 10.1002/2014gl062045, 2014
  • Chen, Qiujie, Shen, Yunzhong, Zhang, Xingfu, Chen, Wu, Hsu, Houze;
    Tongji-GRACE01: A GRACE-only static gravity field model recovered from GRACE Level-1B data using modified short arc approach;
    Advances in Space Research, Vol 56, No. 5, p. 941-951, doi: 10.1016/j.asr.2015.05.034, 2015
  • Claessens, S. J., Hirt, C.;
    Ellipsoidal topographic potential: New solutions for spectral forward gravity modeling of topography with respect to a reference ellipsoid;
    Journal of Geophysical Research-Solid Earth, Vol 118, No. 11, p. 5991-6002, doi: 10.1002/2013jb010457, 2013
  • Dahle, C., Flechtner, F., Gruber, C., König, D., König, R., Michalak, G., Neumayer, K.-H., Deutsches GeoForschungsZentrum GFZ;
    GFZ GRACE Level-2 Processing Standards Document for Level-2 Product Release 0005: revised edition;
    doi: 10.2312/GFZ.b103-1202-25, Potsdam, 2013
  • Dietrich, R., Gendt, G., Der Direktor des Zentralinstituts Physik der Erde;
    A Gravity Field Model from LAGEOS Based on Point Masses (POEM-L1);
    Akademie der Wissenschaften der DDR Zentralinstitut für Physik der Erde, Vol 102, No. Part 2, Potsdam, 1989
  • Dimitrijevich, V.;
    Harmograv: A Spherical Harmonic Function to Represent the Earth’s Gravitational Potential;
    Defense Mapping Agency Aerospace Center, p. 46, St. Louis, Mo, 1975
  • Ditmar, P., Kuznetsov, V., van der Sluijs, A. A. van Eck, Schrama, E., Klees, R.;
    ‘DEOS_CHAMP-01C_70’: a model of the Earth’s gravity field computed from accelerations of the CHAMP satellite;
    Journal of Geodesy, Vol 79, No. 10-11, p. 586-601, doi: 10.1007/s00190-005-0008-6, 2005
  • Farahani, H. Hashemi, Ditmar, P., Klees, R., Liu, X., Zhao, Q., Guo, J.;
    The static gravity field model DGM-1S from GRACE and GOCE data: computation, validation and an analysis of GOCE mission’s added value;
    Journal of Geodesy, Vol 87, No. 9, p. 843-867, doi: 10.1007/s00190-013-0650-3, 2013
  • Fecher, T., Pail, R., Gruber, T., GOCO Project Team,;
    The combined gravity field model GOCO05c;
    Vienna, 2016
  • Fecher, Thomas, Pail, Roland, Gruber, Thomas;
    Global gravity field modeling based on GOCE and complementary gravity data;
    International Journal of Applied Earth Observation and Geoinformation, Vol 35, p. 120-127, doi: 10.1016/j.jag.2013.10.005, 2015
  • Flechtner, Frank, Dahle, Christoph, Neumayer, Karl Hans, König, Rolf, Förste, Christoph, Flechtner, F.M., Gruber, Th., Güntner, A., Mandea, M., Rothacher, M., Schöne, T., Wickert, J.;
    The Release 04 CHAMP and GRACE EIGEN Gravity Field Models;
    Springer, p. 41-58, doi: 10.1007/978-3-642-10228-8_4, Berlin/Heidelberg, 2010
  • Földváry, Lóránt, Švehla, Dražen, Gerlach, Christian, Wermuth, Martin, Gruber, Thomas, Rummel, Reiner, Rothacher, Markus, Frommknecht, Björn, Peters, Thomas, Steigenberger, Peter, Reigber, C., Lühr, H., Schwintzer, P., Wickert, J.;
    Gravity Model TUM-2Sp Based on the Energy Balance Approach and Kinematic CHAMP Orbits;
    Springer Berlin-Heidelberg, p. 13-18, doi: 10.1007/3-540-26800-6_2, 2005
  • Förste, C., Flechtner, F., Schmidt, R., Meyer, U., Stubenvoll, R., Barthelmes, F., König, R., Neumayer, K.H., Rothacher, M., Reigber, C., Biancale, R., Bruinsma, S.L., Lemoine, J.M., Raimondo, J.C.;
    A New High Resolution Global Gravity Field Model Derived From Combination of GRACE and CHAMP Mission and Altimetry/Gravimetry Surface Gravity Data;
    Poster presented at EGU General Assembly 2005, Vienna, Austria, 24-29 April 2005, Vienna, Austria, 2005
  • Förste, C., Flechtner, F., Schmidt, R., König, R., Meyer, U., Stubenvoll, R., Rothacher, M., Barthelmes, F., Neumayer, K.H., Biancale, R., Bruinsma, S.L., Lemoine, J.M.;
    A mean global gravity field model from the combination of satellite mission and altimetry/gravimetry surface gravity data;
    Poster presented at EGU General Assembly 2006, Vienna, Austria, 02-07 April 2006 Geophysical Research Abstracts, Vol. 8, 03462, 2006, Vienna, Austria, 2006
  • Förste, C., Flechtner, F., Schmidt, R., Stubenvoll, R., Rothacher, M., Kusche, J., Neumayer, K.H., Biancale, R., Lemoine, J.M., Barthelmes, F., Bruinsma, S.L., König, R., Meyer, U.;
    EIGEN-GL05C - A new global combined high-resolution GRACE-based gravity field model of the GFZ-GRGS cooperation;
    Geophysical Research Abstracts, Vol. 10, EGU2008-A-03426, SRef-ID: 1607-7962/gra/EGU2008-A-03426, 2008, Vienna, Austria, 2008
  • Förste, C., Bruinsma, S.L., Shako, R., Marty, J.C., Flechtner, F., Abrikosov, O., Dahle, C., Lemoine, J.M., Neumayer, K.H., Biancale, R., Barthelmes, F., König, R., Balmino, G.;
    EIGEN-6 - A new combined global gravity field model including GOCE data from the collaboration of GFZ-Potsdam and GRGS-Toulouse;
    Geophysical Research Abstracts, Vol. 13, EGU2011-3242-2, EGU General Assembly, 2011, 2011
  • Förste, C., Bruinsma, S.L., Flechtner, F., Marty, J.C., Lemoine, J.M., Dahle, C., Abrikosov, O., Neumayer, K.H., Biancale, R., Barthelmes, F., Balmino, G.;
    A preliminary update of the Direct approach GOCE Processing and a new release of EIGEN-6C;
    San Francisco, USA, 2012
  • Förste, C., Bruinsma, S.L.;
    EIGEN-6S4: A time-variable satellite-only gravity field model to d/o 300 based on LAGEOS, GRACE and GOCE data from the collaboration of GFZ Potsdam and GRGS Toulouse;
    doi: 10.5880/icgem.2016.004, http://doi.org/10.5880/icgem.2016.004, 2016
  • Förste, Christoph, Bruinsma, Sean L., Abrikosov, Oleg, Lemoine, Jean-Michel, Marty, Jean Charles, Flechtner, Frank, Balmino, G., Barthelmes, F., Biancale, R.;
    EIGEN-6C4 The latest combined global gravity field model including GOCE data up to degree and order 2190 of GFZ Potsdam and GRGS Toulouse;
    GFZ Data Services, doi: 10.5880/ICGEM.2015.1, 2014
  • Gaposchkin, E.M., Lambeck, K.;
    Earth's gravity field to the sixteenth degree and station coordinates from satellite and terrestrial data;
    Journal of Geophysical Research, Vol 76, No. 20, p. 4855-4883, doi: 10.1029/JB076i020p04855, 1971
  • Gaposchkin, E.M., Smithsonian Astrophysical Observatory;
    1973 Smithsonian Standard Earth (III);
    Smithsonian Astrophysical Observatory, Vol 353, Cambridge, Mass., 1973
  • Gaposchkin, E.M. Lambeck, K.;
    1969 Smithsonian Standard Earth (II);
    Smithsonian Astrophysical Observatory, Vol 315, Cambridge, Mass., 1970
  • Gatti, A., Reguzzoni, M., Migliaccio, F., Sanso, F.;
    Space-wise grids of gravity gradients from GOCE data at nominal satellite altitude;
    Paris, 2014
  • Gerlach, Ch, Földvary, L., Švehla, D., Gruber, Th, Wermuth, M., Sneeuw, N., Frommknecht, B., Oberndorfer, H., Peters, Th, Rothacher, M., Rummel, R., Steigenberger, P.;
    A CHAMP-only gravity field model from kinematic orbits using the energy integral;
    Geophysical Research Letters, Vol 30, No. 20, doi: 10.1029/2003gl018025, 2003
  • Gilardoni, M., Reguzzoni, M., Sampietro, D.;
    GECO: a global gravity model by locally combining GOCE data and EGM2008;
    Studia Geophysica et Geodaetica, Vol 60, p. 228-247, doi: 10.1007/s11200-015-1114-4, 2016
  • Goiginger, H., Höck, E., Rieser, D., Mayer-Gürr, T., Maier, A., Krauss, S., Pail, R., Fecher, T., Gruber, T., Brockmann, J.M., Krasbutter, I., Schuh, W.D., Jäggi, A., Prange, L., Hausleitner, W., Baur, O., Kusche, J.;
    The combined satellite-only global gravity field model GOCO02S;
    Vienna, Austria, 2011
  • Grombein, T., Luo, X. G., Seitz, K., Heck, B.;
    A Wavelet-Based Assessment of Topographic-Isostatic Reductions for GOCE Gravity Gradients;
    Surveys in Geophysics, Vol 35, No. 4, p. 959-982, doi: 10.1007/s10712-014-9283-1, 2014
  • Grombein, T., Seitz, K., Heck, B.;
    An update of the Rock-Water-Ice topographic gravity field model of the Earth;
    Karlsruhe Institute of Technology, Prague, 2015
  • Gruber, T., Bosch, W., Montag, Reigber, Wolfgang Torge;
    OGE12, A New 360 Gravity Field Model;
    Springer Verlag, Vol 112, doi: 10.1007/978-3-642-78149-0_22, Potsdam, 1992
  • Gruber, T., Anzenhofer, M., Forsberg, Denker;
    The GFZ 360 Gravity Field Model;
    Geodetic Division Kort og Matrikelstyrelsen, Wiesbaden, 1993
  • Gruber, T., Bode, A., Reigber, C., Schwintzer, P.;
    DPAF Global Earth Models Based on ERS;
    ESTEC Publishing Division, Florenz, 1997
  • Gruber, T., Reigber, C., Schwintzer, P.;
    The 1999 GFZ pre-CHAMP high resolution gravity model;
    Springer Verlag, Vol 121, p. 89-95, doi: 10.1007/978-3-642-59742-8_14, Birmingham, 1999
  • Gruber, Th., Anzenhofer, M., Rentsch, M., Schwintzer, P., Segawa, Fujimoto, Okubo;
    Improvements in High Resolution Gravity Field Modeling at GFZ;
    Springer Verlag, Vol 117, p. 445-452, doi: 10.1007/978-3-662-03482-8_60, Tokyo, Japan, 1996
  • Gruber, Thomas, Anzenhofer, Michael, Rentsch, Matthias, Rapp Cazenave Nerem;
    The 1995 GFZ High Resolution Gravity Model;
    Springer Verlag, Vol 116, p. 61-70, doi: 10.1007/978-3-642-61140-7_7, Boulder, CO, USA, 1996
  • Gruber, Thomas, Bode, Albert, Reigber, Christoph, Schwintzer, Peter, Balmino, Georges, Biancale, Richard, Lemoine, Jean-Michel;
    GRIM5-C1: Combination solution of the global gravity field to degree and order 120;
    Geophysical Research Letters, Vol 27, No. 24, p. 4005-4008, doi: 10.1029/2000gl011589, 2000
  • Guo, J. Y., Shang, K., Jekeli, C., Shum, C. K.;
    On the energy integral formulation of gravitational potential differences from satellite-to-satellite tracking;
    Celestial Mechanics and Dynamical Astronomy, Vol 121, No. 4, p. 415-429, doi: 10.1007/s10569-015-9610-y, 2015
  • Hajela, D.P., Ohio State University, Department of Geodetic Science;
    Optimal Estimation of High Degree Field from a Global Set of 1x1 Anomalies to Degree and Order 250;
    The Ohio State University, Department of Geodetic Science, Vol 358, p. 60, Columbus, Oh, 1984
  • Hashemi Farahani, H., Ditmar, P., Klees, R., Teixeira da Encarnacao, J., Liu, X., Zhao, Q., Guo, J.;
    Validation of static gravity field models using GRACE K-band ranging and GOCE gradiometry data;
    Geophysical Journal International, Vol 194, No. 2, p. 751-771, doi: 10.1093/gji/ggt149, 2013
  • Ilk, K.H., Mayer-Gürr, T., Feuchtinger, M., Reigber, C., Lühr, H., Schwintzer, P., Wickert, J.;
    Gravity Field Recovery by Analysis of Short Arcs of CHAMP;
    Springer Berlin-Heidelberg, p. 127-132, doi: 10.1007/3-540-26800-6_20, 2005
  • Jäggi, A., Meyer, U., Beutler, G., Prange, L., Dach, R., Mervart, L.;
    AIUB-GRACE03S: A static gravity field model computed with simultaneously solved-for time variations from 6 years of GRACE data using the Celestial Mechanics Approach;
    Paper in preparation, 2011,
  • Jäggi, A., Beutler, G., Mervart, L.;
    GRACE Gravity Field Determination Using the Celestial Mechanics Approach – First Results;
    Gravity, Geoid and Earth Observation, Vol 135, p. 177-184, doi: 10.1007/978-3-642-10634-7_24, 2010
  • Jäggi, A., Beutler, G., Meyer, U., Prange, L., Dach, R., Mervart, L.;
    AIUB-GRACE02S: Status of GRACE Gravity Field Recovery Using the Celestial Mechanics Approach;
    presented at the IAG Scientific Assembly 2009, August 31 - September 4 2009, Buenos Aires, Argentina, doi: 10.1007/978-3-642-20338-1_20, 2012
  • Koch, K.R.;
    Earth’s Gravity Field and Station Coordinates from Doppler Data, Satellite Triangulation, and Gravity Anomalies;
    National Oceanic and Atmospheric Administration, Vol 62, p. 29, Rockville, Md., 1974
  • Koch, Karl-Rudolf, Morrison, Foster;
    A simple layer model of the geopotential from a combination of satellite and gravity data;
    Journal of Geophysical Research, Vol 75, No. 8, p. 1483-1492, doi: 10.1029/JB075i008p01483, 1970
  • Koch, Karl-Rudolf, Witte, Bertold U.;
    Earth's gravity field represented by a simple-layer potential from Doppler tracking of satellites;
    Journal of Geophysical Research, Vol 76, No. 35, p. 8471-8479, doi: 10.1029/JB076i035p08471, 1971
  • Kozai, Y., Smithsonian Astrophysical Observatory;
    Revised values for coefficients of zonal spherical harmonics in the geopotential;
    Smithsonian Astrophysical Observatory, Vol 295, p. 17, Cambridge, Mass., 1969
  • König, R., Chen, Z., Reigber, C., Schwintzer, P.;
    Improvement in global gravity field recovery using GFZ-1 satellite laser tracking data;
    Journal of Geodesy, Vol 73, No. 8, p. 398-406, doi: 10.1007/s001900050259, 1999
  • Lemoine, F.G., Kenyon, S.C., Factor, J.K., Trimmer, R.G., Pavlis, N.K., Chinn, D.S., Cox, C.M., Klosko, S.M., Luthcke, S.B., Torrence, M.H., Wang, Y.M., Williamson, R.G., Pavlis, E.C., Rapp, R.H., Olson, T.R., GSFC Goddard Space Flight Center;
    The Development of the Joint NASA GSFC and the National IMagery and Mapping Agency (NIMA) Geopotential Model EGM96;
    Greenbelt, Md, 1998
  • Lerch, F. J., Nerem, R. S., Putney, B. H., Felsentreger, T. L., Sanchez, B. V., Marshall, J. A., Klosko, S. M., Patel, G. B., Williamson, R. G., Chinn, D. S., Chan, J. C., Rachlin, K. E., Chandler, N. L., McCarthy, J. J., Luthcke, S. B., Pavlis, N. K., Pavlis, D. E., Robbins, J. W., Kapoor, S., Pavlis, E. C.;
    A geopotential model from satellite tracking, altimeter, and surface gravity data: GEM-T3;
    Journal of Geophysical Research, Vol 99, No. B2, p. 2815-2839, doi: 10.1029/93jb02759, 1994
  • Lerch, F.J., Wagner, C.A., Putney, M.L., Sandson, M.L., Brownd, J.E., Richardson, J.A., Taylor, W.A.;
    Gravitational Field Models GEM 3 and 4;
    GSFC Goddard Space Flight Center, p. 26, A1-A12, St. Louis, MO; United States, 1972
  • Lerch, F.J., Wagner, C.A., Smith, D.E., Sandson, M.L., Brownd, J.E., Richardson, J.A., GSFC Goddard Space Flight Center;
    Gravitational Field Models for the Earth (GEM 1 & 2);
    A version of this paper was presented at COSPAR, Working Group 1, Madrid, May 1972., Greenbelt, Md., 1972
  • Lerch, F.J., Wagner, C.A., Richardson, J.A., Brownd, J.E., GSFC Goddard Space Flight Center;
    Goddard Earth Models (5 and 6);
    Goddard Space Flight Center, Greenbelt/Maryland, p. 100, A1-B29, Greenbelt, Md, 1974
  • Lerch, F.J., Wagner, C.A., Klosko, S.M., Belott, R.P., Laubscher, R.E., Raylor, W.A.;
    Gravity Model Improvement Using Geos3 Altimetry (GEM10A and 10B);
    Miami, 1978
  • Lerch, F.J., Klosko, S.M., Patel, G.B., GSFC Goddard Space Flight Center;
    A Refined Gravity Model from Lageos (GEM-L2);
    Auch hier erschienen: 10.1029/GL009i011p01263, Greenbelt, Md, 1983
  • Lerch, F.J., Nerem, R.S., Putney, B.H., Felsentreger, T.L., Sanchez, B.V., Klosko, S.M., Patel, G.B., Williamson, R.G., Chinn, D.S., Chan, J.C., Rachlin, K.E., Chandler, N.L., McCarthy, J.J., Marshall, J.A., Luthcke, S.B., Pavlis, D.W., Robbins, J.W., Kapoor, S., Pavlis, E.C., GSFC Goddard Space Flight Center;
    Geopotential Models of the Earth from Satellite Tracking, Altimeter and Surface Gravity Observations: GEMT3 and GEMT3S;
    Greenbelt, Md, 1992
  • Lerch, Fancis J., Klosko, Steven M., Laubscher, Roy E., Wagner, Carl A.;
    Gravity model improvement using Geos 3 (GEM 9 and 10);
    Journal of Geophysical Research, Vol 84, No. B8, p. 3897, doi: 10.1029/JB084iB08p03897, 1979
  • Lerch, Francis J., Putney, Barbara H., Wagner, Carl A., Klosko, Steven M.;
    Goddard earth models for oceanographic applications (GEM 10B and IOC);
    Marine Geodesy, Vol 5, No. 2, p. 145-187, doi: 10.1080/15210608109379416, 1981
  • Lundquist, C.A., Veis, G., Smithsonian Astrophysical Observatory;
    Geodetic Parameters for a 1966 Smithonian Institution Standard Earth;
    Smithonian Astrophysical Observatory, Vol 200, Cambridge, Mass., 1966
  • Marsh, J. G., Lerch, F. J., Putney, B. H., Christodoulidis, D. C., Smith, D. E., Felsentreger, T. L., Sanchez, B. V., Klosko, S. M., Pavlis, E. C., Martin, T. V., Robbins, J. W., Williamson, R. G., Colombo, O. L., Rowlands, D. D., Eddy, W. F., Chandler, N. L., Rachlin, K. E., Patel, G. B., Bhati, S., Chinn, D. S.;
    A new gravitational model for the Earth from satellite tracking data: GEM-T1;
    Journal of Geophysical Research, Vol 93, No. B6, p. 6169-6215, doi: 10.1029/JB093iB06p06169, 1988
  • Marsh, J. G., Lerch, F. J., Putney, B. H., Felsentreger, T. L., Sanchez, B. V., Klosko, S. M., Patel, G. B., Robbins, J. W., Williamson, R. G., Engelis, T. L., Eddy, W. F., Chandler, N. L., Chinn, D. S., Kapoor, S., Rachlin, K. E., Braatz, L. E., Pavlis, E. C.;
    The GEM-T2 Gravitational Model;
    Journal of Geophysical Research, Vol 95, No. B13, p. 22043-22071, doi: 10.1029/JB095iB13p22043, 1990
  • Mayer-Gürr, T., Ilk, K. H., Eicker, A., Feuchtinger, M.;
    ITG-CHAMP01: a CHAMP gravity field model from short kinematic arcs over a one-year observation period;
    Journal of Geodesy, Vol 78, No. 7-8, p. 462-480, doi: 10.1007/s00190-004-0413-2, 2005
  • Mayer-Gürr, T.;
    Gravitationsfeldbestimmung aus der Analyse kurzer Bahnbögen am Beispiel der Satellitenmissionen CHAMP und GRACE;
    Universität Bonn, Vol Dr. Ing., 2006
  • Mayer-Gürr, T., Eicker, A., Ilk, K.H.;
    ITG-GRACE02s: a GRACE gravity field derived from short arcs of the satellite’s orbit;
    Proceedings of the First Symposium of International Gravity Field Service, Istanbul, 2006 Presentation: http://ifen.bauv.unibw-muenchen.de/gw06/down/mayer-guerr_muenchen_2006.pdf Proceedings: http://www.hgk.msb.gov.tr/images/dergi/df57dbded091b01.pdf, Istanbul, 2006
  • Mayer-Gürr, T., Eicker, A., Ilk, K.H.;
    ITG-Grace03 Gravity Field Model;
    http://www.igg.uni-bonn.de/apmg/index.php?id=itg-grace03, 2007
  • Mayer-Gürr, T., Kurtenbach, E., Eicker, A.;
    ITG-Grace2010 Gravity Field Model;
    http://www.igg.uni-bonn.de/apmg/index.php?id=itg-grace2010, 2010, 2010
  • Mayer-Gürr, T., Rieser, D., Höck, E., Brockmann, J.M., Schuh, W.-D., Krasbutter, I., Kusche, J., Maier, A., Krauss, S., Hausleitner, W., Baur, O., Jäggi, A., Meyer, U., Prange, L., Pail, R., Fecher, T., Gruber, T.;
    The new combined satellite only model GOCO03s;
    Venice, 2012
  • Mayer-Gürr, T., Zehentner, N., Klinger, B., Kvas, A.;
    ITSG-Grace2014: a new GRACE gravity field release computed in Graz;
    Potsdam, 2014
  • Mayer-Gürr, T., Pail, R., Gruber, T., Fecher, T., Rexer, M., Schuh, W.-D., Kusche, J., Brockmann, J.-M., Rieser, D., Zehentner, N., Kvas, A., Klinger, B., Baur, O., Höck, E., Krauss, S., Jäggi, A.;
    The combined satellite gravity field model GOCO05s;
    Vienna, Austria, 2015
  • Metzler, B., Pail, R.;
    GOCE Data Processing: The Spherical Cap Regularization Approach;
    Studia Geophysica et Geodaetica, Vol 49, No. 4, p. 441-462, doi: 10.1007/s11200-005-0021-5, 2005
  • Migliaccio, F., Reguzzoni, M., Sanso, F., Tscherning, C.C., Veicherts, M.;
    GOCE data analysis: the space-wise approach and the first space-wise gravity field model;
    ESA Publications Division, Norwijk, The Nethelands, Bergen, Norway, 2010
  • Migliaccio, F., Reguzzoni, M., Gatti, A., Sanso, F., Herceg, M.;
    A GOCE-only global gravity field model by the space-wise approach;
    European Space Agency, ESA, Munich, 2011
  • Nerem, R. S., Lerch, F. J., Marshall, J. A., Pavlis, E. C., Putney, B. H., Tapley, B. D., Eanes, R. J., Ries, J. C., Schutz, B. E., Shum, C. K., Watkins, M. M., Klosko, S. M., Chan, J. C., Luthcke, S. B., Patel, G. B., Pavlis, N. K., Williamson, R. G., Rapp, R. H., Biancale, R., Nouel, F.;
    Gravity model development for TOPEX/POSEIDON: Joint Gravity Models 1 and 2;
    Journal of Geophysical Research, Vol 99, No. C12, p. 24421-24447, doi: 10.1029/94jc01376, 1994
  • Pail, R., Goiginger, H., Mayrhofer, R., Schuh, W., Brockmann, J.M., Krasbutter, I., Hoeck, E., Fecher, T.;
    GOCE gravity field model derived from orbit and gradiometry data applying the time-wise method;
    ESA Publications Division, Norwijk, The Nethelands, Bergen, Norway, 2010
  • Pail, R., Goiginger, H., Schuh, W. D., Höck, E., Brockmann, J. M., Fecher, T., Gruber, T., Mayer-Gürr, T., Kusche, J., Jäggi, A., Rieser, D.;
    Combined satellite gravity field model GOCO01S derived from GOCE and GRACE;
    Geophysical Research Letters, Vol 37, No. 20, p. n/a-n/a, doi: 10.1029/2010gl044906, 2010
  • Pail, Roland, Bruinsma, Sean, Migliaccio, Federica, Förste, Christoph, Goiginger, Helmut, Schuh, Wolf-Dieter, Höck, Eduard, Reguzzoni, Mirko, Brockmann, Jan Martin, Abrikosov, Oleg, Veicherts, Martin, Fecher, Thomas, Mayrhofer, Reinhard, Krasbutter, Ina, Sansò, Fernando, Tscherning, Carl Christian;
    First GOCE gravity field models derived by three different approaches;
    Journal of Geodesy, Vol 85, No. 11, p. 819-843, doi: 10.1007/s00190-011-0467-x, 2011
  • Pavlis, N.K., Chinn, D.S., Cox, C.M., Lemoine, F.G.;
    Geopotential Model Improvement Using POCM_4B Dynamic Ocean Topography Information: PGM2000A;
    Miami, Florida, USA, 2000
  • Pavlis, N.K., Holmes, S.A., Kenyon, S.C., Factor, J.K.;
    An Earth Gravitational Model to Degree 2160: EGM2008;
    Vienna, Austria, 2008
  • Prange, L., Jäggi, A., Beutler, G., Dach, R., Mervart, L., M. Sideris;
    Gravity Field Determination at the AIUB – The Celestial Mechanics Approach;
    Springer, Vol 133, p. 353-362, doi: 10.1007/978-3-540-85426-5_42, Perugia, 2009
  • Prange, L.;
    Global Gravity Field Determination Using the GPS Measurements Made Onboard the Low Earth Orbiting Satellite CHAMP;
    PhD Thesis, Geodätisch-geophysikalische Arbeiten in der Schweiz, vol. 81. http://www.sgc.ethz.ch/sgc-volumes/sgk-81.pdf, 2011, Geodätisch-geophysikalische Arbeiten in der Schweiz, Vol. 81, Schweizerische Geodätische Kommission, 2010
  • Rapp, R.H., Ohio State University, Department of Geodetic Science;
    Numerical Results from the Combination of Gravimetric and Satellite Data Using the Principles of Least Squares Collocation;
    The Ohio State University, Department of Geodetic Science, Vol 200, p. 58, Columbus, Oh, 1973
  • Rapp, R.H., Ohio State University, Department of Geodetic Science;
    A Global 1x1 Anomaly Field Combining Satellite, GEOS3 Altimeter Data;
    The Ohio State University, Department of Geodetic Science, Vol 278, Columbus, Oh, 1978
  • Rapp, R.H., Ohio State University, Department of Geodetic Science;
    The Earth’s Gravity Field to Degree and Order 180 Using SEASAT Altimeter Data, Terrestrial Gravity Data, and Other Data;
    The Ohio State University, Department of Geodetic Science, Vol 322, p. 53, Columbus, Oh, 1981
  • Rapp, R.H., Cruz, J.Y., Ohio State University, Department of Geodetic Science;
    Spherical Harmonic Expansion of the Earth's Gravitational Potential to Degree 360 Using 30' Mean Anomalies;
    The Ohio State University, Department of Geodetic Science, Vol 376, p. 22, Columbus, Oh, 1986
  • Rapp, R.H., Wang, Y.M., Pavlis, N.K., Ohio State University, Department of Geodetic Science;
    The Ohio State 1991 Geopotential and Sea Surface Topography Harmonic Coefficient Models;
    The Ohio State University, Department of Geodetic Science, Vol 410, p. 94, Columbus, Oh, 1991
  • Rapp, R.H. Cruz, J.Y., Ohio State University, Department of Geodetic Science;
    The Representation of the Earth’s Gravitational Potential in a Spherical Harmonic Expansion to Degree 250;
    The Ohio State University, Department of Geodetic Science, Vol 372, p. 64, Columbus, Oh., 1986
  • Rapp, Richard H.;
    Gravitational potential of the Earth determined from a combination of satellite, observed, and model anomalies;
    Journal of Geophysical Research, Vol 73, No. 20, p. 6555-6562, doi: 10.1029/JB073i020p06555, 1968
  • Rapp, Richard H., Pavlis, Nikolaos K.;
    The development and analysis of geopotential coefficient models to spherical harmonic degree 360;
    Journal of Geophysical Research, Vol 95, No. B13, p. 21885-21911, doi: 10.1029/JB095iB13p21885, 1990
  • Reguzzoni, Mirko, Tselfes, Nikolaos;
    Optimal multi-step collocation: application to the space-wise approach for GOCE data analysis;
    Journal of Geodesy, Vol 83, No. 1, p. 13-29, doi: 10.1007/s00190-008-0225-x, 2008
  • Reigber, C., Balmino, G., Moynot, B., Müller, H.;
    The GRIM3 Earth Gravity Field Model;
    Manuscripta Geodaetica, Vol 8, p. 93-138, 1983
  • Reigber, C., Rizos, C., Bosch, W., Balmino, G., Moynot, B.;
    An Improved GRIM3 Earth Gravity Field (GRIM3B);
    Hamburg, 1983
  • Reigber, C., Balmino, G., Müller, H., Bosch, W., Moynot, B.;
    GRIM gravity model improvement using LAGEOS (GRIM3-L1);
    Journal of Geophysical Research, Vol 90, No. B11, p. 9285, doi: 10.1029/JB090iB11p09285, 1985
  • Reigber, C., Balmino, G., Schwintzer, P., Biancale, R., Bode, A., Lemoine, J. M., Konig, R., Loyer, S., Neumayer, H., Marty, J. C., Barthelmes, F., Perosanz, F., Zhu, S. Y.;
    Global gravity field recovery using solely GPS tracking and accelerometer data from CHAMP;
    Space Science Reviews, Vol 108, No. 1-2, p. 55-66, doi: Doi 10.1023/A:1026217713133, 2003
  • Reigber, C., Schmidt, R., Flechtner, F., König, R., Meyer, U., Neumayer, K.H., Schwintzer, P., Zhu, S.Y.;
    First EIGEN Gravity Field Model based on GRACE Mission Data Only;
    (in preparation for GRL) 2003c, 2003
  • Reigber, C., Schwintzer, P., Neumayer, K. H., Barthelmes, F., König, R., Förste, C., Balmino, G., Biancale, R., Lemoine, J. M., Loyer, S., Bruinsma, S., Perosanz, F., Fayard, T.;
    The CHAMP-only earth gravity field model EIGEN-2;
    Advances in Space Research, Vol 31, No. 8, p. 1883-1888, doi: 10.1016/s0273-1177(03)00162-5, 2003
  • Reigber, C., Jochmann, H., Wünsch, J., Petrovic, S., Schwintzer, P., Barthelmes, F., Neumayer, K.H., König, R., Förste, C., Balmino, G., Biancale, R., Lemoine, J.M., Loyer, S., Perosanz, F., Reigber, C., Lühr, H., Schwintzer, P., Wickert, J.;
    Earth Gravity Field and Seasonal Variability from CHAMP;
    Springer, p. 25-30, doi: 10.1007/3-540-26800-6_4, Berlin, 2004
  • Reigber, C., Schwintzer, P., Stubenvoll, R., Schmidt, R., Flechtner, F., Meyer, U., König, R., Neumayer, K.H., Förste, C., Barthelmes, F., Zhu, S.Y., Balmino, G., Biancale, R., Lemoine, J.M., Meixner, H., Raimondo, J.C., GeoForschungsZentrum Potsdam (GFZ);
    A High Resolution Global Gravity Field Model Combining CHAMP and GRACE Satellite Mission and Surface Data: EIGEN-CG01C;
    doi: 10.2312/GFZ.b103-06075, Potsdam, 2006
  • Reigber, Ch, Schwintzer, P., Barth, W., Massmann, F. H., Raimondo, J. C., Bode, A., Li, H., Balmino, G., Biancale, R., Moynot, B., Lemoine, J. M., Marty, J. C., Barlier, F., Boudon, Y.;
    Grim4-C1, -C2p: combination solutions of the global earth gravity field;
    Surveys in Geophysics, Vol 14, No. 4-5, p. 381-393, doi: 10.1007/bf00690566, 1993
  • Reigber, Christoph, Balmino, Georges, Schwintzer, Peter, Biancale, Richard, Bode, Albert, Lemoine, Jean-Michel, König, Rolf, Loyer, Sylvain, Neumayer, Hans, Marty, Jean-Charles, Barthelmes, Franz, Perosanz, Felix, Zhu, Shen Yuan;
    A high-quality global gravity field model from CHAMP GPS tracking data and accelerometry (EIGEN-1S);
    Geophysical Research Letters, Vol 29, No. 14, p. 37-1-37-4, doi: 10.1029/2002gl015064, 2002
  • Reigber, Christoph, Schmidt, Roland, Flechtner, Frank, König, Rolf, Meyer, Ulrich, Neumayer, Karl-Hans, Schwintzer, Peter, Zhu, Sheng Yuan;
    An Earth gravity field model complete to degree and order 150 from GRACE: EIGEN-GRACE02S;
    Journal of Geodynamics, Vol 39, No. 1, p. 1-10, doi: 10.1016/j.jog.2004.07.001, 2005
  • Ries, J., Bettadpur, S., Eanes, R., Kang, Z., Ko, U., McCullough, C., Nagel, P., Pie, N., Poole, S., Richter, T., Save, H., Tapley, B.;
    The Combined Gravity Model GGM05C;
    GFZ Data Services, doi: 10.5880/ICGEM.2016.002, Potsdam, 2016
  • Ries, J.C., Bettadpur, S., Poole, S., Richter, T.;
    Mean Background Gravity Fields for GRACE Processing;
    Austin, TX, 2011
  • Rudenko, Sergei, Dettmering, Denise, Esselborn, Saskia, Schöne, Tilo, Förste, Christoph, Lemoine, Jean-Michel, Ablain, Michaël, Alexandre, David, Neumayer, Karl-Hans;
    Influence of time variable geopotential models on precise orbits of altimetry satellites, global and regional mean sea level trends;
    Advances in Space Research, Vol 54, No. 1, p. 92-118, doi: 10.1016/j.asr.2014.03.010, 2014
  • Schall, Judith, Eicker, Annette, Kusche, Jürgen;
    The ITG-Goce02 gravity field model from GOCE orbit and gradiometer data based on the short arc approach;
    Journal of Geodesy, Vol 88, No. 4, p. 403-409, doi: 10.1007/s00190-014-0691-2, 2014
  • Schwintzer, P., Reigber, C., Massmann, F.H., Barth, W., Raimondo, J.C., Gerstl, M., Li, H., Biancale, R., Balmino, G., Moynot, B., Lemoine, J.M., Marty, J.C., Boudon, Y., Barlier, F., DGFI;
    A new earth gravity field model in support of ERS-1 and SPOT-2:, GRIM4-S1/C1;
    Deutsches Geodätisches Forschungsinstitut, Abt. I (DFG), München ; Group de Recherche de Géodésie Spatiale (GRGS), Toulouse, France, p. 177, München, 1991
  • Schwintzer, P., Reigber, C., Barth, W., Massmann, F.H., Raimondo, J.C., Gerstl, M., Bode, A., Li, H., Biancale, R., Balmino, G., Moynot, B., Lemoine, J.M., Marty, J.C., Barlier, F., Boudon, Y.;
    GRIM4 Globale Erdschwerefeldmodelle;
    Zeitschrift für Vermessungswesen, Vol 117, p. 227-247, 1992
  • Schwintzer, P., Reigber, Ch, Bode, A., Chen, Z., Massmann, F. H., Raimondo, J. C., Lemoine, J. M., Balmino, G., Biancale, R., Moynot, B., Marty, J. C., Barlier, F., Boudon, Y.;
    Improvement of GRIM4 Earth Gravity Models Using Geosat Altimeter and SPOT-2 and ERS-1 Tracking Data;
    doi: 10.1007/978-3-642-78149-0_20, 1993
  • Schwintzer, P., Reigber, C., Bode, A., Kang, Z., Zhu, S. Y., Massmann, F. H., Raimondo, J. C., Biancale, R., Balmino, G., Lemoine, J. M., Moynot, B., Marty, J. C., Boudon, Y., Barlier, F.;
    Long-wavelength global gravity field models: GRIM4-S4, GRIM4-C4;
    Journal of Geodesy, Vol 71, No. 4, p. 189-208, doi: 10.1007/s001900050087, 1997
  • Seppelin, T.O., WGS Committee,;
    The Department of Defense World Geodetic System 1972;
    U.S. Department of Commerce, National Technical Information Service, Fredrickton, New Brunswick, Canada, 1974
  • Shako, R., Förste , C., Abrikosov, O., Bruinsma, S., Marty, J., Lemoine, J., Flechtner, F., Neumayer, H., Dahle, C.;
    EIGEN-6C: A High-Resolution Global Gravity Combination Model Including GOCE Data;
    Springer, p. 155-161, doi: 10.1007/978-3-642-32135-1_20, Berlin-Heidelberg, 2014
  • Shang, Kun, Guo, Junyi, Shum, C. K., Dai, Chunli, Luo, Jia;
    GRACE time-variable gravity field recovery using an improved energy balance approach;
    Geophysical Journal International, Vol 203, No. 3, p. 1773-1786, doi: 10.1093/gji/ggv392, 2015
  • Shen, Y., Chen, Q., Hsu, H., Zhang, X., Lou, L.;
    A modified short arc approach for recovering gravity field model;
    Austin, TX, 2013
  • Tapley, B., Ries, J., Bettadpur, S., Chambers, D., Cheng, M., Condi, F., Gunter, B., Kang, Z., Nagel, P., Pastor, R., Pekker, T., Poole, S., Wang, F.;
    GGM02 – An improved Earth gravity field model from GRACE;
    Journal of Geodesy, Vol 79, No. 8, p. 467-478, doi: 10.1007/s00190-005-0480-z, 2005
  • Tapley, B. D., Watkins, M. M., Ries, J. C., Davis, G. W., Eanes, R. J., Poole, S. R., Rim, H. J., Schutz, B. E., Shum, C. K., Nerem, R. S., Lerch, F. J., Marshall, J. A., Klosko, S. M., Pavlis, N. K., Williamson, R. G.;
    The Joint Gravity Model 3;
    Journal of Geophysical Research-Solid Earth, Vol 101, No. B12, p. 28029-28049, doi: 10.1029/96jb01645, 1996
  • Tapley, B. D., Chambers, D. P., Bettadpur, S., Ries, J. C.;
    Large scale ocean circulation from the GRACE GGM01 Geoid;
    Geophysical Research Letters, Vol 30, No. 22, doi: 10.1029/2003gl018622, 2003
  • Tapley, B. D., Bettadpur, S., Watkins, M., Reigber, C.;
    The gravity recovery and climate experiment: Mission overview and early results;
    Geophysical Research Letters, Vol 31, No. 9, p. n/a-n/a, doi: 10.1029/2004gl019920, 2004
  • Tapley, B.D., Shum, C.K., Yuan, D.N., Ries, J.C., Eanes, R.J., Watkins, M.M., Schutz, B.E.;
    The University of Texas Earth Gravity Field Model;
    Wien, 1991
  • Tapley, B.D., Shum, C.K., Ries, J.C., Poole, S.R., Abusali, P.A.M., Bettadpur, S.V., Eanes, R.J., Kim, M.C., Rim, H.J., Schutz, B.E., Segawa, J., Fujimoto, H., Okubo, S.;
    The TEG-3 Geopotential Model;
    Springer Verlag, Vol 117, p. 453-460, doi: 10.1007/978-3-662-03482-8_61, Tokyo, Japan, 1997
  • Tapley, B.D., Chambers, D.P., Cheng, M.K., Kim, M.C., Poole, S.R., Ries, J.C.;
    The TEG-4 Earth Gravity Field Model;
    Nice, France, 2000
  • Tapley, B.D., Ries, J., Bettadpur, S., Chambers, D., Cheng, M., Condi, F., Poole, S.;
    The GGM03 Mean Earth Gravity Model from GRACE;
    Eos Trans, Vol AGU 88(52), Fall Meet. Suppl., Abstract G42A-03, 2007
  • Tapley, B.D., Flechtner, F., Bettadpur, S., Watkins, M.M.;
    The status and future prospect for GRACE after the first decade;
    Eos Trans., Vol Fall Meet. Suppl., Abstract G22A-01, 2013
  • WGS Committee;
    The Department of Defense World Geodetic System 1966;
    Defense Mapping Agency, Washington, D. C., 1966
  • Wagner, C.A., Lerch, F.J., Brownd, J.E., Richardson, J.E., GSFC Goddard Space Flight Center;
    Improvement in the Geopotential Derived from Satellite and Surface Data (GEM 7 and 8);
    Erschien ein Jahr später hier: 10.1029/JB082i005p00901, Greenbelt, Md, 1976
  • Wagner, Carl A.;
    Zonal gravity harmonics from long satellite arcs by a seminumeric method;
    Journal of Geophysical Research, Vol 78, No. 17, p. 3271-3280, doi: 10.1029/JB078i017p03271, 1973
  • Weigelt, M., van Dam, T., Jäggi, A., Prange, L., Tourian, M. J., Keller, W., Sneeuw, N.;
    Time-variable gravity signal in Greenland revealed by high-low satellite-to-satellite tracking;
    Journal of Geophysical Research, Vol 118, No. 7, p. 3848-3859, doi: 10.1002/jgrb.50283, 2013
  • Wenzel, H.G.;
    Hochauflösende Kugelfunktionsmodelle für das Gravitationspotential der Erde;
    Fachrichtung Vermessungswesen der Universität Hannover, Vol 137, Hannover, 1985
  • Wermuth, M., Svehla, D., Földvary, L., Gerlach, C., Gruber, T., Frommknecht, B., Peters, T., Rothacher, M., Rummel, R., Steigenberger, P.;
    A gravity field model from two years of CHAMP kinematic orbits using the energy balance approach;
    Nice/France, 2004
  • Yi, Weiyong;
    An alternative computation of a gravity field model from GOCE;
    Advances in Space Research, Vol 50, No. 3, p. 371-384, doi: 10.1016/j.asr.2012.04.018, 2012
  • Yi, Weiyong, Rummel, Reiner, Gruber, Thomas;
    Gravity field contribution analysis of GOCE gravitational gradient components;
    Studia Geophysica et Geodaetica, Vol 57, No. 2, p. 174-202, doi: 10.1007/s11200-011-1178-8, 2013
  • Yi, Weiyong, Rummel, Reiner;
    A comparison of GOCE gravitational models with EGM2008;
    Journal of Geodynamics, Vol 73, p. 14-22, doi: 10.1016/j.jog.2013.10.004, 2014
icgem@gfz-potsdam.de
X

Subscribe to the
ICGEM-users mailinglist.