MODERNIZATION OF GEODETIC DATUM AND THE NEW DEVELOPMENT OF SATELLITE GEODESY
Received date: 2003-07-23
Revised date: 2003-11-03
Online published: 2004-02-01
Some important topics in the IAG (International Association of Geodesy) Symposium held in July 2003, in Sapporo, Japan, such as the modernization of geodetic datum in China's neighboring countries, new strategy for the Earth gravity field determination from LEO satellites (One Step) and the new development in the GPS data processing techniques are briefly introduced in the paper. "International Terrestrial reference Frame”is taken as the global geodetic coordinate frame and its main problem is that the moving rates of all its frame points are supposed as a constant speed rate. However, this ITRF assumption is not true, which does not always coincide with practical situation. China's neighboring and near neighboring countries, like Japan, New Zealand, Mongolia, South Korea and Malaysia gave the introduction at the symposium about the geodetic datum modernization and geoid improvement work in their countries respectively. The Earth Gravity Field and its variation are usually determined with so called two-steps method. The so called one-step method, a new type of technique presented at the symposium to solve the same problem is an important development in this field. Some important advances in the field of GPS data processing are presented, such as the computational technique of coordinates and their movement for the continuous operation GPS stations from the GPS observational data with temporal correlation; the GPS data processing from the GPS observational data with systematic errors.
Key words: Geodesy; Geodetic datum; Satellite geodesy.
CHEN Jun-yong . MODERNIZATION OF GEODETIC DATUM AND THE NEW DEVELOPMENT OF SATELLITE GEODESY[J]. Advances in Earth Science, 2004 , 19(1) : 12 -016 . DOI: 10.11867/j.issn.1001-8166.2004.01.0012
[1]Angermann Detlef, Drewes H, Gerstl M,et al. ITRF Combinationstatus and Recommendations for the Future[C].Proceeding of IUGG General Assembly (G01/03A/C24-002), Sapporo, Japan, 2003.
[2]Angermann Detlef, Manuela Kruegel, Barbara Meisel,et al. Time Evolution of the Terrestrial Reference Frame[C].Proceeding of IUGG General Assembly (G01/03P/D-007), Sapporo, Japan, 2003.
[3]Kazuo Komaki, Tsuji H, Murakami M,et al. Evolution of Japanese Geodetic Reference System to Support Information Society on Dynamic Earth[C]. Proceeding of IUGG General Assembly (G01/03A/C24-006), Sapporo, Japan, 2003.
[4]Mijiddorj Saandari, Enkhbayar M, Jivall L,et al. The New National Reference System MONREF 97 in Mongolia[C].Proceeding of IUGG General Assembly (G01/03P/D-043), Sapporo, Japan, 2003.
[5]Graeme Blick, Beavan J, Crook C,et al. Practical Limitations with the Implementation of a Semidynamic Datum for New Zealand[C]. Proceeding of IUGG General Assembly (G01/03A/C24-005), Sapporo, Japan, 2003.
[6]Hong-Sic Yun, Cho J. Establishment of the Korean GPS Fiducial Network Referred to ITRF97[C]. Proceeding of IAG Scientific Assembly, Budapest, Hungary, 2001.
[7]Majid Kadir, Omar K, Ses S,et al.Establishment of New Geocentric Reference Frame for Malaysia[C]. Proceeding of IAG Scientific Assembly, Budapest, Hungary, 2001.
[8]KwoHWA Chen, Ming Yang, Kun-Shu Chang. Improving Local Geoid Model of Taiwan Using Twvd2001 GPS/Leveling Data[C]. Proceeding of IUGG General Assembly (G03/07P/D-049), Sapporo, Japan, 2003.
[9]Shengyuan Zhu, Reigber Ch, Massmann F H. Simultaneous Use of GPS Data From Ground Stations And Leos For Gravity Field Recovery[C]. Proceeding of IUGG General Assembly (G03/04P/C24-006), Sapporo, Japan, 2003.
[10]Benjamin Fong Chao, Christopher M, Andrew Y,et al.TimeVariable Gravity from SatelliteLaserRanging: LowDegree Components and Geophysical/Climatic Connections[C]. Proceeding of IUGG General Assembly (G06/03P/C25-012), Sapporo, Japan, 2003.
[11]Jean Dodkey, Marcus L S, Olivier V,et al.Earth Oblateness Variations: Unraveling Glacial Melting, Ocean Mass Redistribution and PostGlacial Rebound Effects[C]. Proceeding of IUGG General Assembly (G06/03P/C25-013), Sapporo, Japan, 2003.
[12]Riccardo Barzaghi, Borghi A, Pietrantonio G. The Analysis of GPS Permanent Network Solutions: The Impact of Temporal Correlations[C]. Proceeding of IUGG General Assembly (G01/02A/C24-003), Sapporo, Japan, 2003.
[13]Jan S Krynski, Zanimonskiy Y M. Toward More Reliable Estimation of GPS Positioning Accuracy[C]. Proceeding of IUGG General Assembly (G01/02A/C24-004), Sapporo, Japan, 2003.
[14]Steffen Schouml, Kutterer H. Realistic Uncertainty Measures for GPS Observations[C]. Proceeding of IUGG General Assembly (G01/02A/C24-005), Sapporo, Japan, 2003.
[15]Hansjoerg Kutterer. Alternatives for the Modeling of Uncertainty in Geodetic Positioning[C]. Proceeding of IUGG General Assembly (G01/02A/C24-006), Sapporo, Japan, 2003.
/
| 〈 |
|
〉 |
甘公网安备62010202000687
