Third Symposium on Future National Operational Environmental Satellites
    

Poster Session 2

 

Applications and Exploitation of NPOESS and GOES-R Data Products II

 Chair: Gary Mineart, Mitretek Systems, Inc., Silver Spring, MD
 P2.1Validation of mesoscale model output with satellite observations  extended abstract
Manajit Sengupta, CIRA/Colorado State Univ., Ft. Collins, CO; and L. Grasso, D. T. Lindsey, and M. DeMaria
 P2.2Using regression models to enhance signals in a dispersive radiative field: Reducing stray light corruption in the limb profiler of the Ozone Mapper Profiler Suite (OMPS)  
John W. Bergman, Computational Physics, Inc., Boulder, CO; and L. E. Flynn, J. Hornstein, and J. Lumpe
 P2.3The VIIRS Fire Mask  
Alain Sei, Northrop Grumman Space Technology, Redondo Beach, CA; and D. B. Hogan, T. Kennely, and S. Zaccheo
 P2.4The VIIRS cloud mask  
Keith Hutchison, Center for Space Research, Austin, TX; and B. Lisager, J. M. Jackson, J. K. Roskovensky, A. K. Heidinger, M. J. Pavolonis, T. J. Kopp, and R. A. Frey
 P2.5The NPOESS field terminal segment  
James Jensen, Raytheon Intelligence and Information Systems, Omaha, NE; and J. Bradley
 P2.6Synthetic GOES-R and NPOESS imagery of mesoscale weather events  extended abstract
Lewis Grasso, CIRA/Colorado State Univ., Fort Collins, CO; and M. Sengupta and J. F. Dostalek
 P2.7Status of the NPOESS VIIRS Instrument  
Gary Ross, NOAA/NESDIS/NPOESS, Silver Spring, MD; and J. R. Swenson
 P2.8Simulation and test of the VIIRS sensor data record (SDR) algorithm for NPOESS  
Stephen Mills, Northrop Grumman Space Technology, Redondo Beach, CA; and J. Lamoureux
 P2.9Sea surface temperature measurements from the VIIRS instrument during NPOESS  
John M. Jackson, Northrop Grumman Space Technology, Redondo Beach, CA; and W. J. Emery
 P2.10Retrieval of sea ice age and concentration using the VIIRS sea ice characterization algorithm: preliminary tests with MODIS proxy data  
Robert Mahoney, Northrop Grumman Space Technology, Redondo Beach, CA; and I. Appel and M. Kowitt
 P2.11Operational Cloud Detection Systems in the NPOESS GOES-R Era  
Gilberto A. Vicente, NOAA, Camp Springs, MD; and A. K. Heidinger
 P2.12Operational and scientific applications of ozone data from NPP and NPOESS  
John Hornstein, NPOESS IPO/NRL, Washington, DC; and L. E. Flynn, C. S. Long, R. McPeters, D. Gu, and D. Durnford
 P2.13OMPS - The Next Generation Sensor Suite for Global Ozone Monitoring  
Scott C. Asbury, Ball Aerospace & Technologies Corp., Boulder, CO; and J. Sneary, Q. Remund, and J. Rodriguez
 P2.14NSIPS: A Hub for NPOESS Cal/Val support  
Bonnie Reed, General Dynamics Advanced Information Systems, Arlington, VA; and J. Zajic, C. Wang, A. Harrington, M. Wong, J. Bowser, J. Bay, C. Johnson, M. Johnson, and M. Echeverri
 P2.15NPOESS system architecture  
Frank Hinnant, NPOESS/IPO, Silver Spring, MD
 P2.16NPOESS storage area network (san)/fiber channel interface  
James Austin, Raytheon Intelligence and Information Systems, Inc., Aurora, CO
 P2.17NPOESS soil moisture satellite data assimilation research using windsat data  
Andrew Jones, CIRA/Colorado State Univ., Fort Collins, CO; and C. L. Combs, S. Longmore, D. Rapp, T. H. Vonder Harr, T. Vukicevic, G. Mason, G. McWilliams, and M. Mungiole
 P2.18NPOESS Preparatory Project (NPP) Science Data Segment (SDS)  
Robert J. Schweiss, NASA/GSFC, Greenbelt, MD
 P2.19NPOESS interface data processing segment  
Kerry Grant, Raytheon Company, Aurora, CO
 P2.20NPOESS environmental data records  
Mike Haas, NPOESS IPO, Silver Spring, MD
 P2.21NPOESS Command, Control, and Communications Segment (C3S)  
Bill Sullivan, Raytheon, Aurora, CO
 P2.22Neural Network Retrievals of Precipitation and Atmospheric Temperature and Moisture Profiles from ATMS and CRIS  
William J. Blackwell, MIT Lincoln Laboratory, Lexington, MA; and F. Chen
 P2.23Modeling GOES-R 6.185–10.35 µm brightness temperature differences above cold thunderstorm tops  
Daniel T. Lindsey, NOAA/NESDIS/RAMMB, Fort Collins, CO., Fort Collins, CO; and L. Grasso
 P2.24Mixed Phase Detection and Cloud Property Retrievals during NPOESS  
Denise Hagan, Northrop Grumman Space Technology, Redondo Beach, CA; and S. Q. Kidder, A. Kankiewicz, T. H. Vonder Haar, and M. Mussetto
 P2.25Improvements to NPOESS temperature and moisture sounding by combining sounder and imaging instrument data  
Richard J. Lynch, AER, Inc., Lexington, MA; and C. Richard, H. E. Snell, D. B. Hogan, A. Huang, D. Hagan, and M. Mussetto
 P2.26GOES-R transition from GOES Variable Format (GVAR) to GOES Rebroadcast Data  
John W. Linn III, Mitretek Systems, Falls Church, VA; and L. Shipley
 P2.27Differentiating between clouds and aerosol during the NPOESS era  
Keith Hutchison, Center for Space Research, Austin, TX; and B. Isager and J. M. Jackson
 P2.28Development and testing of the VIIRS land surface temperature using global modis proxy data and global synthetic data  
Justin Ip, Northrop Grumman Space Technology, Redondo Beach, CA; and B. Hauss
 P2.29Coastal waters imaging: instrument and data utility issues  
Stephanie R. Sandor-Leahy, Northrop Grumman Space Technology, Redondo Beach, CA; and P. Bissett, B. Hauss, and C. Mobley
 P2.30Cloud top temperatures of cirrus clouds retrieved from radiances in the NPOESS/VIIRS 8.55-µm and 12.0-µm Bandpasses  
Eric Wong, Northrup Grumman Space Technology, Redondo Beach., CA; and K. D. Hutchison, S. C. Ou, and K. N. Liou
 P2.31Analysis of Adjacency Effects for Two Lambertian Half-Spaces  
Alain Sei, Northrop Grumman Space Technology, Redondo Beach, CA
 P2.32Air quality products from noaa's GOES-R advanced baseline imager (ABI) and hyperspectral environmental sounder (HES)  
Shobha Kondragunta, NOAA/NESDIS, Camp Springs, MD; and M. Goldberg
 P2.33Aerosol Measurements from the VIIRS Instrument During NPOESS  
Eric Shettle, NRL, Washington, DC; and R. Halthore, E. Vermote, and J. M. Jackson
 P2.34A theoretical study of the uncertainties in the remote sensing of ice cloud optical thickness and effective size using high spectral resolution satellite observations  
Zhibo Zhang, Texas A&M Univ., College Station, TX; and P. Yang, H. L. Huang, and J. Li
 P2.35WRF-simulated atmospheric profile datasets used to support GOES-R research activities  
Jason A. Otkin, CIMSS/SSEC, Madison, WI; and H. L. Huang, E. R. Olson, and S. Wanzong
 P2.36The GOES-R ABI (Advanced Baseline Imager) and continuation of GOES-N class sounder products  
Timothy J. Schmit, NOAA/NESDIS, Madison, WI; and J. Gurka, J. Li, and K. Schrab

Wednesday, 17 January 2007: 2:30 PM-4:00 PM, 217D

* - Indicates paper has been withdrawn from meeting

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