In this paper, the working principle of three satellites (CHAMP, GRACE and GOCE) has been described, and the important geopotential models and the newest geopotential models (EIGEN-CG01C, GGM02) have been introduced.
[1] Gunter Seeber.卫星大地测量学[M].赖锡安 译, 王庆庭 校.北京:地震出版社, 德文版1989年出版, 英文版(增订)1993年出版, 本书根据英文版译出, 1998.
[2] Boy J P, Chao B F.Time-variable gravity signal during the water impoundment of China’s three gorges reeservoir[J].Geophysical Research Letters , 2002, 29(24)53-1-53-4.
[3] Ramillien G, Cazenave A, Brunau O.Global time variations of hydrological signals from GRACE satellite gravimetry[J].Geophysical Journal International, 2004, 158(3):813-826.
[4] Green Ch M, Fairhead J D, Maus S.Satellite-derived gravity: where are we and what'next[J].The Leading Edge, 1998, 17(1):77-79.
[5] Fairhead J D, Green Ch M, Odegard M E.Satellite-derived gravity having an impact on marine exploration[J].The Leading Edge, 2001, 20(8):873-876.
[6] Commettee on Earth Gravity from Space, National Research Council, Satellite Gravity and the Geosphere.Contributions to the study of the solid earth and its fruid envelop[M].Washington:The National Academies Press, 1997.
[7] Reichber Ch.CHAMP Mission.http://op.gfz-potsdam.de/champ/index_CHAMP.html .
[8] tu-Graz Mggi.Measurement principle and comparison with CHAMP and GRACE.http://www.cis.tugraz.at/mggi/.
[9] Reichber Ch.GRACE Mission.http://op.gfz-potsdam.de/grace/index_GRACE.html.
[10] ESA(European Space Agency), GOCE mission overview].http://t2wesa.r3h.net/export/esaLP/ESABQK1VMOC_goce_0.html.
[11] Das GOCE-Projektbüro Deutschland (German GOCE Project Bureau), Ausgew?hlte Folien zu GOCE, den Sensoren und zu Anwendungen des GOCE-Schwerefeldes.http://www.goce-projektbuero.de/seiten/folien.html.
[12] Das GOCE-Projektb or Deutschland.Die Mission GOCE].http://www.goce-projektbuero.de/.
[13] Space Program Office of Taiwan, China, ROCSAT-3/COSMIC. http://www.orbital.com/PrinterFriendly.php?NavMenuID=203, Last Modified: 08/24/2005.
[14] McGirck J M, Kasevich M A, Kasevich M A, et al.Sensitive absolute gravity gradiometry using atom interferometry[J].Phys Rev A, 2002, 65:33-608.
[15] Yu N, Maleki L, Maleki L, et al.Quantum Gravity Gradiometer Sensor for Earth Science Application[J].JPL, 2003.
[16] Morring F, Washington J R.Orbiting gravity mappers might spot oil fields[J].Aviation Week & Space Technology, 2002, March 3.
[17] 张昌达.利用原子干涉仪测量重力加速度[J].物探与化探, 2000, 24(5):321-326.
[18] Vol Moody M, Ho Jung Paik, Canavan E R. Three-axis superconducting gravity gradiometer for sensitive gravity experiments[J].Review of Scientific Instruments, 2002, 73(11):3957-3974.
[19] Lemoine F G, Kenyon S C, Factor J.K, et al.The development of the joint NASA GSFC and the National Imagery and Mapping Agency (NIMA) geopotential model EGM96.NASA Technical Paper NASA/TP-1998-206861.Greenbelt:GODDARD Space Flight Center, 1998.
[20] Lemoine F G, Smith D E, Kunz L, et al.The development of the NASA, GSFC and NIMA joint geopotential model. International Symposium Gravity, Geoid and Marine Geodesy, September 30~October 5, 1996, Tokyo, Japan; International Association of geodesy Symposia, Berlin:Springer Verlag, 1996, 117:461-469.
[21] Wenzel G.Ultra high degree geopotential models GPM98A, GPM98B and GPM98C to degree 1800.1998, Preprint of a paper to be submitted to the Bulletin of the International Geoid Service. http://www.gik.uni-karlsruhe.de/~wenzel/gpm98abc/gpm98abc.htm.
[22] Yang L U, Hsu H T, Jiang F Z.The regional geopotential model to degree and order 720 in China .22nd IUGG congress, July 1999, Birmingham, UK, 1120G3/W/42-A5.
[23] Lu Y, Zhang K, Hsu H.Development of a regional geopotential model to 3600 degree through a combination of CHAMP and surface gravity data[M].IUGG 2003, Abstract, July 2003.
[24] Reigber Ch (Originator). Combined gravity field model EIGEN-CG01C, 24, 2004.http://op.gfz-potsdam.de/champ/results/grav/009_eigen-cg01c.html.
[25] Tapley B J, Ries S, Bettadpur D, et al.GGM02-an improved earth gravity field model from GRACE (GRACE Gravity Model 02)-released October 29, 2004.http://www.csr.utexas.edu/grace/.
[26] 张昌达.卫星磁测的过去·现在·未来[J].物探与化探, 2003, 17(5): 329-332.
[27] 刘光鼎.中国海区及邻域地质—地球物理系列图(1∶500万)及说明书[M].北京:地质出版社, 1992.
[28] 周国藩, 陈建国, 张健.青藏高原卫星重力场及所反映的壳幔结构及深部构造特征[J].地球科学, 1996, 21(2):191-197.
[29] 申宁华, 王喜臣, 王光杰, 等.中国大陆重磁异常场 的计算方法及地质解释[M].长春:吉林科学技术出版社, 1997.