Imager and sounder radiance and product validations for the GOES-12 science test

by Donald W. Hillger

Publisher: U.S. Dept. of Commerce, National Oceanic and Atmosperic Administration, National Environmental Satellite, Data, and Information Service in Washington, D.C

Written in English
Published: Pages: 70 Downloads: 833
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Subjects:

  • GOES (Meteorological satellite) -- Testing.,
  • Geostationary satellites -- Testing.,
  • Space vehicles -- Optical equipment -- Testing.,
  • Brightness temperature -- Measurement.

Edition Notes

StatementDonald W. Hilger, Timothy J. Schmit, Jaime M. Daniels.
SeriesNOAA technical report NESDIS ;, 115
ContributionsSchmit, Timothy J., Daniels, Jaime M.
Classifications
LC ClassificationsTL1200 .H5523 2003
The Physical Object
Pagination70 p. :
Number of Pages70
ID Numbers
Open LibraryOL3727360M
LC Control Number2003373706

Imager and sounder radiance and product validations for the GOES-12 science test by Donald W. Hillger Download PDF EPUB FB2

Get this from a library. Imager and sounder radiance and product validations for the GOES science test. [Donald W Hillger; Timothy J Schmit; Jaime M Daniels; United States. National Environmental Satellite, Data, and Information Service.]. The GOES-N sounder data and products.

Imager and Sounder Radiance and Product Validations for the GOES Science Test GOES Science Test: GOES Imager and Sounder Radiance and.

NOAA will publish a Technical Report that summarizes some of the findings during the GOES check-out period. The Geostationary Operational Environmental Satellite (GOES) Science Test Report: GOES Imager and Sounder Radiance and Product Validations is edited by J.

Daniels and T. Schmit. Schmit is a member of NOAA’s Advanced. NESDIS The GOES Science Test: Imager and Sounder Radiance and Product Validations. Donald W. Hillger and Timothy J.

Schmit, September NESDIS A QA/QC Manual of the Cooperative Summary of the Day Processing System. William E. The GOES-8 series had both a 5-channel imager and a channel operational sounder. The sounders were used to derive temperature and moisture profiles in clear skies, along with other products such as cloud-top properties and total ozone (Ma et al., ; Hayden and Schmit, ; Hayden et al., a,b; Rao and Fuelberg, ; Menzel and Purdom.

NESDIS Imager and Sounder Radiance and Pro duct Validations for the GOES Science Test. Don ald W. Hillger, Timothy J.

Schmit, a nd Jamie M. Daniels, S eptember NESDIS 11 6 Microwave. Free Online Library: A closer look at the ABI on the GOES-R series: the ABI on the GOES-R series is America's next-generation geostationary advanced imager and will dramatically improve the monitoring of many phenomena at improved time and space scales.(Report) by "Bulletin of the American Meteorological Society"; Business Earth sciences.

Characteristics of GOES Imagers. The two Earth viewing sensors on the current GOES series are the imager and the sounder. 7 The nominal field of view is approximately 1 km at nadir for the imager visible band, although the detectors are oversampled in the east-west direction.

7 The technical aspects can be found in the GOES N/O/P data book Cited by: Validation of Satellite Sounder Environmental Data Records: Application to the Cross-Track Infrared Microwave Sounder Suite.

Journal of Geophysical Research-Atmospheres, (24), [/JD]. GOES Advanced Baseline Imager instrument performance monitor Robbie Iacovazzi, Haifeng Qian, Xiangqian Wu, Xi Shao, Fangfang Yu JARS Vol.

14 Issue The Geostationary Operational Environmental Satellite (GOES) Product Generation System. NASA Technical Reports Server (NTRS) Haines, S. L.; Suggs, R. J.; Jedlovec, G. The Geostationary Operational Environmental Satellite (GOES) Product Generation System (GPGS) is introduced and described.

GPGS is a set of computer programs developed and. This work supported the development and adaptation of the existing GOES Aerosol/Smoke Product (GASP) Aerosol Optical Depth (AOD) retrieval algorithm for the GOES (west) imager, testing and validation of the code and assistance with the implementation of the code at NOAA/NESDIS in near-real time.

It also supports testing andFile Size: 8MB. The Geostationary Operational Environmental Satellite (GOES) Product Generation System. NASA Technical Reports Server (NTRS) Haines, S. L.; Suggs, R. J.; Jedlovec, G. Concentrating Solar Power - Free download as PDF File .pdf), Text File .txt) or read online for free.

concentrarea puterii solare. Free essays, homework help, flashcards, research papers, book reports, term papers, history, science, politics.

PT AU BA BE GP AF BF CA TI SO SE BS LA DT CT CY CL SP HO DE ID AB C1 RP EM RI OI FU FX CR NR TC Z9 PU PI PA SN EI BN J9 JI PD PY VL IS PN SU SI MA BP EP AR DI D2 PG. Data Assimilation William Lahoz Boris Khattatov Richard Ménard Editors Data Assimilation Making Sense of Observations Editors Dr.

William Lahoz Norsk Institutt for Luftforskning, Norwegian Institute for Air Research Atmospheric and Climate Research Instituttveien 18 Kjeller Norway [email protected] Dr. Boris Khattatov Arapahoe Avenue Boulder CO. Lindstrom, Scott; Bachmeier, S. and Schmit, T. Communicating new satellite technologies through the use of blogs.

Symposium on Education, 27th, Houston, TX, 7. Wang, Pei; Li, Jun and Schmit, Timothy J. The impact of low latency satellite sounder observations on local severe storm forecasts in regional NWP.

Sensors, Vol Issue 3. The Imager instrument on the current GOES satellites measures at 5 wavelength bands. The visible channel ( µm) has a nominal 1-km resolution; the infrared channels ( µm, µm, µm, and 12 µm) have 4-km resolution.