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http://dx.doi.org/10.5467/JKESS.2009.30.3.381

Introduction of the Global Geodetic Observing System  

Shin, Young-Hong (Korea Astronomy and Space Science Institute)
Park, Jong-Uk (Korea Astronomy and Space Science Institute)
Seo, Ki-Weon (Korea Polar Research Institute)
Publication Information
Journal of the Korean earth science society / v.30, no.3, 2009 , pp. 381-397 More about this Journal
Abstract
The Modem Geodesy monitors physical and geometrical shape and motion of the Earth and, more importantly, its temporal variations with unprecedented precision. It provides accurate and stable reference frames for Earth observations in the Space era. Furthermore, with an aid of interdisciplinary approaches, it also traces the causes of the variations in shape and motion of the Earth and eventually contributes to a better understanding of the Earth system. The International Association of Geodesy (IAG) has established the Global Geodetic Observing System (GGOS) to integrate the multitude of geodetic tools and tried to contribute to the management of global environmental changes as a partner of the Global Earth Observation System of Systems (GEOSS). Here we introduce the contribution of geodesy to the various fields of Earth Science by focusing on GGOS and encourage interdisciplinary researches.
Keywords
Geodesy; Earth Science; GGOS; GEOSS;
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1 Drinkwater, M.R., Floberghagen, R., Haagmans, R., Muzi, D., and Popescu, A., 2003, GOCE; ESA's first Earth explorer core mission. In Beutler, G.B., Drinkwater, M.R., Rummel, R., and Steiger, R., 2003, Earth gravity field from space - from Sensor to Earth Sciences. Space Science Series vol. 18 of ISSI, Kluwer Academic Publishers, Dordrecht, 419-432
2 Rothacher, M., 2007, The design of GGOS in 2020. GGOS Forum, EGU General Assembly 2007, Vienna, Austria
3 Battrick, B. (ed.), 2005, Global Earth Observation System of Systems, GEOSS: 10-Year Implementation Plan Reference Document. GEO 1000RIESA SP-1284, ESA Publications Division, Noordwijk, Netherlands, 209 p
4 Biancale, R., Lemoine, J.-M, Bruinsma, S., Gratton, S., and Bourgogne, S., 2008, An improved 10-day time series of the geoid from GRACE and LAGEOS data. GRACE Science Team Meeting, San Francisco
5 Chen, J., Wilson, C.R., Tapley, B.D., Yang, Z.L., and Niu, G Y., 2008, Understanding extreme climate events using GRACE and climate models - A case study in the Amazon Basin. GRACE Science Team Meeting, San Francisco
6 Park, J.-H., Watts, D.R., Donohue, K.A., and Jayne, S.R., 2008, A comparison of in situ bottom pressure array measurements with GRACE estimates in the Kuroshio Extension. GRACE Science Team Meeting, San Francisco
7 Dahle, C., Flechtner, F., Kusche, J., and Rietbroek, R., 2008, GFZ EIGEN-GRACE05S (RL04) weekly gravity field time series. GRACE Science Team Meeting, San Francisco
8 Flury, J. and Rummel, R., 2004, Mass transport and mass distribution in the Earth system. 2nd International workshop, ESA Esrin
9 Luthcke, S.B., Rowlands, D.D., Arendt, A., McCarthy, J.J., Zwally, H.J., Lemonie, F.G., and Boy, J.P., 2008, GRACE observations of land ice evolution. GRACE Science Team Meeting, San Francisco
10 Plag, H.-P., Rothacher, M., and Neilan, R., 2009, The global geodetic observing system-Part 1, The Organisation. Geomatics World, January/February 09, 26-28
11 Plag, H.-P., Rothacher, M., Neilan, R., and Ma, C., 2008, The global geodetic observing system. Advances in Geoscience, WSPC-Proceedings, in press
12 Ray, R.D., Luthcke, S.B., and Boy, J.-P., 2008, Qualitative assessment of global ocean tide models by analysis of GRACE ranging data. GRACE Science Team Meeting, San Francisco
13 Tapley, B., Bettadpur, S., Ries, J.C., Thompson, P.F., and Watkins, M.M., 2004, GRACE measurements of mass variability in the Earth system. Science, 305, 503-505   DOI   PUBMED   ScienceOn
14 Velicogna, I., Wahr, J., and Rignot, E., 2008. Greeland and Antarctic mass balance from GRACE. GRACE Science Team Meeting, San Francisco
15 Willis, J.K., Chambers, D.P., and Nerem, R.S., 2008, Weighing the oceans: Understanding sea level rise in the era of satellite gravity observations. GRACE Science Team Meeting, San Francisco
16 한국지구관측그룹 홈페이지: www.kgeo.go.kr(검색일: 2009. 5. 1.)
17 GEO 홈페이지: www.earthobservations.org (검색일: 2009. 5. 1.)
18 NRC, 2007, Earth science and applications from space: National imperatives for the next decade and beyond. National Academies Press, Washington, DC, USA, 456p
19 Chao, B.F., 2003, Geodesy is not just for static measurements any more. Eos, 84, 145-150
20 한국과학기술기획평가원, 2005, '미래국가유망기술분야' 선정결과와 후속조치계획(안)
21 Ilk, K.H., 2007, Mass transport and mass distribution in the Earth system-Contribution of the new generation of satellite gravity and altimetry missions to Geosciences. Joint International GSTM and DFG SPP Symposium, GFZ, Potsdam
22 Cox, C.M. and Chao, B.F., 2002, Detection of a large-scale mass redistribution in the terrestrial system since 1998. Science, 297, 831-833   DOI   ScienceOn
23 Blewitt, G., Lavallee, D., Clarke, P. and Nurutdinov, K., 2001, A new global mode of Earth deformation: Seasonal cycle detected. Science, 294, 2342-2345   DOI   PUBMED   ScienceOn
24 Gross, S.R., 2006, Mass transport and dynamics in the Earth system: The unsolved scientific questions and observational requirements. GGOS Workshop 2006, Munich, Germany
25 Ilk, K.H., Flury, J., Rummel, R., Schwintzer, P., Bosch, W., Haas, C., Schroter, J., Stammer, D., Zahel, W., Miller, H., Dietrich, R., Huybrechts, P., Schmeling, H., Wolf, D., Geotze, H.J., Riegger, J., Bardossy, A., Gyunter, A., and Gruber, T., 2005, Mass transport and mass distribution in the Earth system. Technical report, GOCE-Projectburo Deutschland, Technische Universitat M-unchen, Geo-ForschungsZentrum Potsdam
26 Tapley, B. and Rothacher, M., 2008, GRACE Mission Status. GRACE Science Team Meeting, San Francisco
27 Drewes, H., Dehant, V., and Lambert, S., 2006, Inconsistencies in geodetic concepts, models and analyses at the 0.1 ppb level. GGOS Workshop 2006, Munich, Germany
28 한국과학기술기획평가원, 2007, 국가 R&D 사업 Total Roadmap (중장기 발전전략)
29 Plag, H.-P., 2006. GGOS and its user requirements, linkage and outreach. In Tregoning, P. and Rizos, C., Dynamic planet - Monitoring and understanding a dynamic planet with geodetic and oceanographic tools. International Association of Geodesy Symposia, vol. 130. Springer Verlag, Berlin, Germany, 711-718
30 Rothacher, M., Neilan, R., and Plag, H.-P., 2007, The global geodetic observing system (GGOS). GGOS Workshop, Frascati, Italy
31 Han, S.-C.,Sauber, J., Luthcke, S., Ji, C., and Pollitz, F., 2008, Postseismic gravity change following the great 2004 Sumatra-Andaman earthquake from the regional harmonic analysis of GRACE inter-satellite tracking data. GRACE Science Team Meeting, San Francisco
32 Cheng, M., 2008, Recent variation in the Earth dynamic oblateness, J2, from SLR and GRACE data. GRACE Science Team Meeting, San Francisco
33 Drewes, H., 2008, Geodesist's handbook 2008. Journal of Geodesy, 82, 661-846   DOI   ScienceOn
34 Han, S.-C., 2008, Dynamics of surface water in Amazon inferred from GRACE measurements of inter-satellite distance change. GRACE Science Team Meeting, San Francisco