Abstract:
FENGYUN Satellite Data Center is the archive center for FY-3, FY-2, and FY-1 satellites' data.
Storm III (FY-3) satellite is China's second-generation polar orbit meteorological satellite, which is the basis of FY-1 meteorological satellite technology on the development and improvement in function and technology a big step forward with qualitative change, specific requirements to solve the ... three-dimensional atmospheric detection, ability to obtain substantial increase in global data to further enhance the cloud and surface characteristics of remote sensing capabilities, enabling access to global, all-weather, three-dimensional, quantitative, multi-spectral atmosphere, surface and sea surface parameters. FY-3 meteorological satellite applications for purposes such as four aspects: ● the provision of global numerical weather prediction for the medium-term resolution of the meteorological parameters uniform. ● study of global change, including climate variation, climate prediction for the variety of meteorological and geophysical parameters. ● monitoring of large-scale natural disasters and the surface environment. ● for a variety of professional activities (aviation, maritime, etc.) of any region to provide global weather information, meteorological support services for the military.
Service Citation
Originators:
China Meteorological Administration(CMA) National Satellite and Meteorological Center(NSMC)
Title:
FENGYUN Satellite Data Center
Provider:
FENGYUN Satellite Data Center
URL:
http://satellite.cma.gov.cn/ArssEn/Ord/Satellite.aspx
Name:
DATA CENTER CONTACT
Phone:
4006-121-701
Email:
dataserver at nsmc.cma.gov.cn
Contact Address:
National Satellite Meteorological Center data services
No. 46
Zhongguancun, Haidian District
South Street City:
Beijing
Postal Code:
100081
Country:
China
Personnel
MICHAEL
MORAHAN Role:
SERF AUTHOR
Phone:
301-614-5107
Fax:
301-614-5304
Email:
Michael.P.Morahan at nasa.gov
Contact Address:
NASA Goddard Space Flight Center
Code 610.2 City:
Greenbelt
Province or State:
MD
Postal Code:
20771
Country:
USA
Publications/References
Bae, S. and B.E. Schutz. 2002. Precision attitude determination (PAD). GLAS algorithm theoretical basis document. Version 2.2. Austin, TX: Center for Space Research, University of Texas at Austin. Center for Space Research. 'ICESat/GLAS.' January 2002. http://www.csr.utexas.edu/glas/. Earth Science Data and Information System (ESDIS). 1996. EOS Ground System (EGS) Systems and Operations Concept. ... Greenbelt, MD: Goddard Space Flight Center. GLAS Science Team. 2000. Mission Operations Requirement Document (MORD) for the Ice, Cloud and Land Elevation Satellite (ICESat) Mission. Greenbelt, MD: Goddard Space Flight Center. GLAS Science Team. 1997. GLAS Science Requirements. Version 2.01. Greenbelt, MD: Goddard Space Flight Center. Guzzi, R., ed. 2003. Exploring the atmosphere by remote sensing techniques. Heidelberg, Germany: Springer-Verlag. Heroux, D. 2000. Progress report on GLAS interface effort with ECS NOSE. Rev. 29 December 2000. Landover, MD: Emergent-IT/Raytheon. Herring, T.A. and K. Quinn. 1999. Atmospheric delay correction to GLAS laser altimeter ranges. GLAS algorithm theoretical basis document. Version 1.0. Lanham, MD: Science Systems and Applications, Inc. Jester, P., and J. Lee. 2002. GLAS standard data products specification - level 1. Version 6.0. Wallops Island, VA: Raytheon ITSS. Lee, J. 2002. GSAS user's guide: Version 4.0. Wallops Island, VA: Raytheon ITSS. Palm, S., W. Hart, and D. Hlavka. 2002. GLAS atmospheric data products. GLAS algorithm theoretical basis document. Version 4.2. Lanham, MD: Science Systems and Applications, Inc. Rim, H., and B. Schutz. 2002. Precision orbit determination. GLAS algorithm theoretical basis document. Version 2.2. Austin, TX: Center for Space Research, University of Texas at Austin. Schutz, B. 2002. Laser footprint location (geolocation) and surface profiles.GLAS algorithm theoretical basis document. Version 3.0. Austin, TX: Center for Space Research, University of Texas at Austin. Schutz, B. 2000. GLAS altimeter post-launch calibration/validation plan. Version 0.99. Austin, TX: Center for Space Research, University of Texas at Austin. Stephens, G.L. 1994. Remote sensing of the lower atmosphere: an introduction. New York: Oxford University Press. Wahr, J., D. Wingham, and C. Bentley. 2000. A method of combining ICESat and GRACE satellite data to constrain Antarctic mass balance. Journal of Geophysical Research 105(B7):16,279-16,294. Yi, D., J. Minster, and C. Bentley. 1999. Ocean tidal loading corrections. GLAS algorithm theoretical basis document. Version 1.0. Greenbelt, MD: Goddard Space Flight Center. Zwally, H.J., B. Schutz, D. Hancock, and A. Brenner. 2000. ICESat/GLAS Standard Data Products in HDF and SCF Formats. Version 1.2. Greenbelt, MD: Goddard Space Flight Center.
Creation and Review Dates
SERF Creation Date:
2011-01-28
SERF Last Revision Date:
2011-02-11
Links
