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52 Commission 2 – Gravity Field of both with unprecedented accuracy and spatial resolution will become available. These fields will finally represent the baseline for any further development and for the definition of potential future gravimetry missions. References ABRIKOSOV O., SCHWINTZER P.: Recovery of the Earth's gravity field from GOCE satellite gravity gradiometry: A case study; in: Proc. Of the 2nd Int. GOCE User Workshop: GOCE, The Geoid and Oceanography, ESA SP-569, 2004 ABRIKOSOV O., JARECKI F., MÜLLER J., PETROVIC S., SCHWINTZER P.: The impact of temporal gravity variations on GOCE gravity field recovery; in: Observation of the System Earth from Space, Ed. Flury, Rummel, Reigber, Rothacher, Boedecker, Schreiber, Springer Verlag, 2006 ABRIKOSOV O., FÖRSTE CH., ROTHACHER M., BRUINSMA S., MARTY J.C., BALMINO G.: Evaluation of a GOCE combination model; Proceedings of the 3rd Int. GOCE User Workshop, ESA SP-627, 2007a ABRIKOSOV O., FLECHTNER F., FÖRSTE CH., MEYER U., ROTHACHER M., SCHMIDT R.: Contribution of modern satellite tracking data to GOCE-based gravity solutions; Proceedings of the 3rd Int. GOCE User Workshop, ESA SP- 627, 2007b AGUIRRE-MARTINEC M., SNEEUW N.: Needs and tools for future gravity measuring missions; Space Science Reviews, Kluwer Academic Publishers, Vol. 108, 1-2, p. 409-416, 2003 ALKHATIB H.: Numerical analysis of GOCE normal equations with the GOCE-analyser; in: Observation of the System Earth from Space, Status Seminar Bavarian State Mapping Agency (BLVA), GEOTECHNOLOGIEN, Science Report, No.3, p. 8-11, Munich, 2003 ALKHATIB H., SCHUH W.D.: Integration of the Monte Carlo covariance estimation strategy into tailored solution procedures for large-scale least squares problems; Journal of Geodesy, Vol. 81, p. 53-66, 2007 AUSTEN G., BAUR O., KELLER W.: Use of high performance computing in gravity field research. In Nagel WE, W Jäger and M Resch (Eds.): High Performance Computing in Science and Engineering’05, Springer-Verlag, Berlin Heidelberg, 2006a AUSTEN G., KELLER W.: LSQR tuning to succeed in computing high resolution gravity field solutions. In: Alberigo P, Erbacci G, Garofalo F (Eds.): Science and Supercomputing in Europe, HPC-Europa Transnational Access Report 2005, 307-311, Monograf s.r.l., Bologna, Italy, 2006b AUSTEN G., KELLER W.: Numerical implementation of the gravity space approach – proof of concept; IAG Symposia Processings No. 130, Dynamic Planet, Ed. Tregoning, Rizos, Springer Verlag, 2007 BAUR O., GRAFAREND E.: LSQR tuning to succeed in computing high resolution gravity field solutions. In: Alberigo P., Erbacci G., Garofalo F. (Eds.): Science and Supercomputing in Europa, HPC-Europa Report Book 2005, 312-315, Monograf s.r.l., Bologna, Italy, 2005 BAUR O., GRAFAREND E.: High-performance GOCE gravity field recovery from gravity gradient tensor invariants and kinematic orbit information; in: Observation of the System Earth from Space, Ed. Flury, Rummel, Reigber, Rothacher, Boedecker, Schreiber, Springer Verlag, 2006a BAUR O., AUSTEN G., KELLER W.: Efficient satellite based geopotential recovery; In: Nagel W.E., Jäger W., Resch M. (Eds.): High Performance Computing in Science and Engineering 06, 499-514, Springer Berlin Heidelberg New York, 2006b BAUR O., SNEEUW N.: The Slepian approach revisited: Dealing with the polar gap in satellite-based geopotential recovery; Proceedings of the 3rd Int. GOCE User Workshop, ESA SP- 627, 2007a BAUR O., KUSCHE J.: LSQR based geopotential recovery; in: Proceedings 1st International Symposium of the IGFS, Istanbul, Turkey, accepted 2006, in print 2007b BEUTLER, G., DRINKWATER M., RUMMEL R. VON STEIGER R.: Earth Gravity Field from Space: from Sensors to Earth Sciences. Space Science Reviews, 108:1-2. Kluwer, Dordrecht, 2003 BÖLLING K., GRAFAREND E.: Ellipsoidal spectral properties of the Earth's gravitational potential and its first and second derivatives; Journal of Geodesy Vol. 79, 300-330, 2005 BOUMAN J., KOOP R., HAAGMANS R., MÜLLER J., SNEEUW N., TSCHERNING C.C., VISSER P.: Calibration and validation of GOCE gravity gradients; in: IAG Symposia Proceedings No. 128, A Window on the Future of Geodesy, Ed. F. Sanso, Springer Verlag, 2005 BOXHAMMER CH.: Tailored parallel least squares algorithms for GOCE data processing; in: Observation of the System Earth from Space, Status Seminar Bavarian State Mapping Agency (BLVA), Geotechnologien, Science Report, No.3, p. 27-30, Munich, 2003 BOXHAMMER CH.: Effiziente numerische Verfahren zur sphärischen harmonischen Analyse von Satellitendaten; Mitteilungen aus dem Geodätischen Instituten der Rheinischen Friedrich-Wilhelms Universität Bonn, Nr. 94, ISSN: 0723- 4325, 2006a BOXHAMMER CH., SCHUH W.D.: GOCE gravity field modelling: Computational aspects – Free kite numbering scheme; in: Observation of the System Earth from Space, Ed. Flury, Rummel, Reigber, Rothacher, Boedecker, Schreiber, Springer Verlag, p. 209-224, 2006b DENKER H.: Computation of gravity gradients over Europe for calibration/validation of GOCE data; in Proceedings of 3rd Meeting of the International Gravity and Geoid Commission: Gravity and Geoid 2002, Ed. I.N. Tziavos, Editions Zini, Thessaloniki, 2003a DENKER H., JARECKI F., MÜLLER J. WOLF I.: Calibration and validation strategies for the gravity field mission GOCE; Status Seminar "Observation of the System Earth from Space", Geotechnologien Science Report, No. 3, 32-35, Potsdam, 2003.b DIETRICH R., WIEHL M., SCHEINERT M., SHUM C.K., BRAUN A., HAN S., SHIBUYA K., FUKUDA Y., SATO T.: Calibration/ validation of GOCE data over Antarctica; n: Proc. of the 2nd Int. GOCE User Workshop: GOCE, The Geoid and Oceanography, ESA SP-569, 2004 EICKER A:, MAYER-GÜRR T., ILK K.H.: Global gravity field solutions from GRACE SST data and regional refinements by GOCE SGG observations; AG Symposia Proceedings, Vol. 129, Ed. Jekeli, Bastos, Fernades, Springer Verlag, 2005 EICKER A., MAYER-GÜRR T., ILK K.H.: An integrated global/ regional gravity field determination approach based on GOCE observations; in: Observation of the System Earth from Space, Ed. Flury, Rummel, Reigber, Rothacher, Boedecker, Schreiber, Springer Verlag, 2006 FACKLER U.: GRACE – Beschleunigungsmessungen; Schriftenreihe IAPG/FESG, 20. Institut für Astronomische und Physikalische Geodäsie, München, 2005
FENGLER M., FREEDEN W., GUTTING M.: Multiscale modelling from EIGEN-1S, EIGEN-2, EIGEN-GRACE01S, GGM01, UCPH2002_0.5, EGM96; in: Proc. Of the 2nd Int. GOCE User Workshop: GOCE, The Geoid and Oceanography, ESA SP-569, 2004a FENGLER M., FREEDEN W., MICHEL V.: The Kaiserslautern multiscale geopotential model SWITCH-03 from orbit perturbations of the satellite CHAMP and its comparison to models EGM96; Geophysical Journal International, Vol. 157, p. 499-514, 2004b FENGLER M., FREEDEN W., GUTTING M.: Darstellung des Gravitationsfelds und seiner Funktionale mit Multiskalentechniken; Zeitschrift für Geodäsie, Geoinformation und Landmanagement (ZFV), (5): 323-334, 2004c FENGLER M., FREEDEN W., GUTTING M.: Multiscale modelling from EIGEN-1S, EIGEN-2, EIGEN-GRACE01S, UCPH2002_0.5, EGM96; in: Earth Observation with Champ, Ed: Reigber, Lühr, Schwintzer, Springer Verlag, 2005a FENGLER M, FREEDEN W., KUSCHE J.: Multiscale Geopotential Solutions from CHAMP Orbits and Accelerometry, in: Earth Observation with Champ, Ed: Reigber, Lühr, Schwintzer, Springer Verlag, 2005b FENGLER M., FREEDEN W., KOHLHAAS A., MICHEL V., PETERS TH.: Wavelet modeling of regional and temporal variations of the Earth's gravitational potential observed by GRACE; Journal of Geodesy, Vol. 81, p. 5-15, 2007 FLECHTNER F.: Short-term Atmosphere and Ocean Gravity Dealiasing for Grace, In: Observation of the System Earth Form Space: Status Seminar, Geotechnologien Science Report No. 3, Bavarian State Mapping Agency (Bvla), München, 2003 FLECHTNER F., SCHMIDT R., MEYER U.: De-aliasing of short-term atmospheric and oceanic mass variations for GRACE; in: Observation of the System Earth from Space, Ed. Flury, Rummel, Reigber, Rothacher, Boedecker, Schreiber, Springer Verlag, 2006 FLURY J., RUMMEL R.: Future satellite gravimetry for geodesy. Earth, Moon, and Planets, 2005, 94, 1-2, 13-30, 2005 FLURY J., RUMMEL R., REIGBER C., ROTHACHER M., BOEDECKER G., SCHREIBER U. (Eds.); OBSERVATION OF THE EARTH SYSTEM FROM SPACE; SPRINGER VERLAG, 2006. FÖLDVARY L., WERMUTH M.: Semi-analytical gravity field analysis applied to satellite-to-satellite tracking data; Geotechnologien Science Report, Rudloff A., Stroink L. (Hrsg.), 2003, 3, 51-53. Koordinationsbüro Geotechnologien, Potsdam, 2003 FÖLDVARY L., SVEHLA D., GERLACH CH., WERMUTH M., GRUBER TH., RUMMEL R., ROTHACHER M., FROMMKNECHT B., PETERS TH., STEIGENBERGER P.: Gravity model TUM-2sp based on the energy balance approach and kinematic CHAMP orbits; In: Earth Observation with CHAMP – Results from three years in orbit, Ed. Reigber Ch., H. Lühr, P. Schwintzer, J. Wickert, Springer Verlag, 2005a. FÖLDVARY L., WERMUTH M.: Gravity inversion techniques for high-low SST applied to a simulated GOCE orbit; Acta Geodetica et Geophysica Hungarica, 40, 1, 1-13, 2005b. FÖRSTE CH., FLECHTNER F., SCHMIDT R., KÖNIG R., MEYER U., STUBENVOLL R., ROTHACHER M., BARTHELMES F., NEU- MAYER K., BIANCALE R., BRUINSMA S., LEMOINE J.M., LOYER S.: Global mean gravity field models from combination of satellite mission and altimetry/gravimetry surface data; Proceedings of the 3rd Int. GOCE User Workshop, ESA SP-627, 2007 T. Gruber: Global Gravity Field Modelling 53 FREEDEN W., MAIER T., ZIMMERMANN S.: A survey on wavelet methods for (Geo)applications. Revista Matemática Complutense (16): 277-310, 2003a FREEDEN W., GROTEN E., MICHEL V., KABOODVAND A.: Geopotential reconstruction, decomposition, fast computation, and noise cancellation by harmonic wavelets; Studia Geophysica et Geodaetica, (47): 37-72, 2003b FREEDEN W., MICHEL V.: Multiscale potential theory (with applications to geoscience). Birkhäuser Verlag, Boston, Basel, Berlin, 2004. FREEDEN W., SCHREINER M.: Spaceborne gravitational field determination by means of locally supported wavelets; Journal of Geodesy, Vol. 79, p. 431-446, 2005 FREEDEN W., MAYER C.: Multiscale solution for the Molodensky problem on regular telluroidal surfaces. Acta Geodaetica et Geophysica Hungarica, (41): 55-86, 2006 FROMMKNECHT B., OBERNDORFER H., FLECHTNER F., SCHMIDT R.: Integrated sensor analysis for GRACE: development and validation. Advances in Geosciences, EGU, Vol. 1, 1, 57-63, 2003 FROMMKNECHT B., FACKLER U., FLURY J.: Integrated sensor analysis GRACE; in: Observation of the System Earth from Space, Ed. Flury, Rummel, Reigber, Rothacher, Boedecker, Schreiber, Springer Verlag, 2006 GERLACH CH., FÖLDVARY L., SVEHLA 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, 20, 2037, doi: 10.1029/2003/GL018025, 2003a GERLACH C., SNEEUW N., VISSER P., SVEHLA D.: CHAMP gravity field recovery with the energy balance approach: First results; in: First CHAMP Mission Results for Gravity, Magnetic and Atmospheric Studies; Ed. Reigber, Lühr, Schwintzer, Springer Verlag, 2003b GÖTZELMANN M, KELLER W., REUBELT T.: Gross error compensation for gravity field analysis based on kinematic orbit data; Journal of Geodesy Vol. 80, 184-198, DOI 10.1007/s00190-006-0061-9, 2006 GLOCKNER O.: Gravitational Field Modelling from CHAMP- Ephemerides by Harmonic Splines and Fast Multipole Techniques; in: First CHAMP Mission results for Gravity, Magnetic and Atmospheric Studies; Ed. Reigber, Lühr, Schwintzer, 2003 GROTEN E.: Fundamental parameters and current (2004) best estimates of the parameters of common relevance to astronomy, geodesy and geodynamics; Journal of Geodesy, Vol. 77, 10-11, p. 724-731, 2004 GRUBER TH.: Global gravity field modelling; in: National Report of the Federal Republic of Germany on the Geodetic Activities in the Years 1999-2003; compiled by: B. Heck, R. Rummel, H. Hornik; DGK Reihe B, Heft Nr. 312, München 2003 GRUBER TH.: Validation concepts for gravity field models from satellite missions. Proceedings of Second International GOCE User Workshop "GOCE, The Geoid and Oceanography", ESA SP-569, 2004 GRUBER TH., RUMMEL R.: Concept and capability of GOCE; Proceedings of the Workshop: GOCINA – Improving Modelling of Ocean Transport and Climate Prediction in the North Atlantic Region using GOCE Gravimetry, Cahiers du Centre Europeen de Geodynamique et de Seismologie, 2006, 25, 31-37, 2006a.
Page 1:
DEUTSCHE GEODÄTISCHE KOMMISSION be
Page 4 and 5: Adresse des Herausgebers / Address
Page 7 and 8: Contents Commission 1 - Reference F
Page 9: COMMISSION 1 REFERENCE FRAMES 7
Page 12 and 13: 10 Commission 1 - Reference Frames
Page 16 and 17: 14 Introduction Celestial Reference
Page 26 and 27: 24 Introduction The contributions o
Page 30 and 31: 28 Satellite altimetry provides a p
Page 35: COMMISSION 2 GRAVITY FIELD 33
Page 38 and 39: 36 Commission 2 - Gravity Field res
Page 40 and 41: 38 Commission 2 - Gravity Field aut
Page 42 and 43: 40 Commission 2 - Gravity Field in
Page 44 and 45: 42 Commission 2 - Gravity Field sho
Page 46 and 47: 44 Commission 2 - Gravity Field KRE
Page 48 and 49: 46 Commission 2 - Gravity Field Dev
Page 50 and 51: 48 Commission 2 - Gravity Field ILK
Page 52 and 53: 50 Introduction In the reporting pe
Page 56 and 57: 54 Commission 2 - Gravity Field GRU
Page 58 and 59: 56 Commission 2 - Gravity Field LEM
Page 60 and 61: 58 1. Modelling Techniques Fundamen
Page 62 and 63: 60 Commission 2 - Gravity Field BUN
Page 64 and 65: 62 Commission 2 - Gravity Field Geo
Page 66 and 67: 64 Commission 2 - Gravity Field SCH
Page 68 and 69: 66 Commission 2 - Gravity Field gra
Page 70 and 71: 68 Commission 2 - Gravity Field LOM
Page 72 and 73: 70 Introduction The four years sinc
Page 74 and 75: 72 Commission 2 - Gravity Field met
Page 76 and 77: 74 Commission 2 - Gravity Field SCH
Page 79 and 80: Introduction The determination of E
Page 81 and 82: Introduction German investigations
Page 83 and 84: In Europe, there are detailed inves
Page 85 and 86: SASGEN, I., MULVANEY R., KLEMANN V.
Page 87 and 88: enabling us to map the behaviour of
Page 89 and 90: NAUJOKS M, JAHR T., JENTZSCH G.,. K
Page 91 and 92: nental hydrosphere. Thus, interpret
Page 93 and 94: M. Thomas, M. Soffel, H. Drewes: Ea
Page 95 and 96: M. Thomas, M. Soffel, H. Drewes: Ea
Page 97 and 98: observed that the resulting masscha
Page 99 and 100: Since 2001, the IERS Central Bureau
Page 101 and 102: COMMISSION 4 POSITIONING AND APPLIC
Page 103 and 104: The main highlights in the past fou
Page 105 and 106:
VLBI Space Geodetic Techniques (VLB
Page 107 and 108:
A. Nothnagel: Space Geodetic Techni
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A. Nothnagel: Space Geodetic Techni
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also be able to track the broadband
Page 113 and 114:
CHEN X., DEKING A., LANDAU H., STOL
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SEEBER G.: Beitrag für „Directio
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2003, WÜBBENA et al. 2006a) or in
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Permanent GNSS Networks, including
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G. Weber, M. Becker, J. Ihde: Perma
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G. Weber, M. Becker, J. Ihde: Perma
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General remarks The continuous and
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Introduction GNSS Based Sounding of
Page 129 and 130:
J. Wickert, N. Jakowski: GNSS Based
Page 131 and 132:
J. Wickert, N. Jakowski: GNSS Based
Page 133 and 134:
References ADAM N.: TerraFirma Qual
Page 135 and 136:
Introduction The period 2003 - 2007
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procedures and surveying instrument
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Motivation During the last years, n
Page 141 and 142:
AVILA-RODRIGUEZ J.-A., PANY T., EIS
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SEIFERT A., KLEUSBERG A. (2003): An
Page 145 and 146:
IAG PROJECTS 143
Page 147 and 148:
The Global Geodetic Observing Syste
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KRÜGEL M., TESMER V., ANGERMANN D.
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Inter-commission Committees (ICC) A
Page 153 and 154:
After the restructuring of the IAG
Page 155 and 156:
Introduction Physical Aspects of Ge
Page 157 and 158:
H. Drewes, M. Soffel: Physical Aspe
Page 159 and 160:
W. Keller, W. Freeden: Mathematical
Page 161 and 162:
W. Keller, W. Freeden: Mathematical
Page 163 and 164:
H. Kutterer, W.-D. Schuh: Quality M
Page 165 and 166:
Page 167 and 168:
Page 169 and 170:
B. ICC on Planetary Geodesy (ICCPG)
Page 171 and 172:
Introduction Various space missions
Page 173 and 174:
Photogrammetrie, Fernerkundung und
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