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Evolving Ground Systems Architecture for NPOESS

This article discusses the evolving ground system architecture requirements for the National Polar-orbiting Operational Environmental Satellite System (NPOESS) and its mission to provide operational remote sensing capabilities for civilian and national security missions.

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Evolving Ground Systems Architecture for NPOESS

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  1. Evolving Ground Systems Architecture Requirements for the National Polar-orbiting Operational Environmental Satellite System (NPOESS)International Geoscience and Remote Sensing Symposium IGARSS 2002 24th Canadian Symposium on Remote SensingJames L. Duda, NASASystems ManagerIntegrated Program OfficeJune 24, 2002

  2. Evolving Ground System Architecture Requirements for the National Polar-orbiting Environmental Operational Satellite System (NPOESS)

  3. NPOESS NPOESS is required to provide anoperational remote sensing capability to acquire and receive in real-time at field terminals, and to acquire, store and disseminate to processing centers,globaland regional environmental imagery and specialized meteorological, climatic, terrestrial, oceanographic and solar-geophysical and other data in support of civilianand nationalsecurity missions

  4. NPOESS Mission A Tri-agency Effort to Leverage and Combine Environmental Satellite Activities Mission Provide a national, operational, polar-orbiting remote-sensing capability Achieve National Performance Review (NPR) savings by converging DoD and NOAA satellite programs Incorporate new technologies from NASA Encourage International Cooperation Local Equatorial Crossing Time NPOESS-Lite

  5. NPOESS Requirements Solar Geophysical Oceanographic Atmospheric Terrestrial Climatic Disaster Planning Ocean Navigation Disaster Response IORD-II: 55 Data Products 21 Enhancement Products

  6. Environmental Data Records (EDR) Allocated by Sensors Atm Vert Moist Profile Precipitable Water Cloud Top Pressure Atm Vert Temp Profile Cloud Top Temperature Precipitation Type/Rate Imagery Down LW Radiance (Sfc) Pressure (Surface/Profile) Sea Surface Temperature Down SW Radiance (Sfc) Sea Ice Characterization Sea Surface Winds Electric Fields Sea SFC Height/TOPO Soil Moisture Electron Density Profile Snow Cover/Depth Energetic Ions Aerosol Optical Thickness Solar Irradiance Aerosol Particle Size Geomagnetic Field Supra-Therm-Aurora Prop Ice Surface Temperature Aerosol Refractive Index Surface Type Albedo (Surface) In-situ Plasma Fluctuation Surface Wind Stress Auroral Boundary In-situ Plasma Temp Suspended Matter Ionospheric Scintillation Auroral Energy Deposition Total Water Content Aeroral Imagery Med Energy Chgd Parts Vegetative Index Land Surface Temp Cloud Base Height LEGEND Net Heat Flux Cloud Cover/Layers VIIRS GPSOS Net Solar Radiation (TOA) Cloud Effective Part Size CMIS ERBS Neutral Density Profile Cloud Ice Water Path TSIS CrIS/ATMS Cloud Liquid Water Ocean Color/Chlorophyll ALT OMPS SES APS Cloud Optical Thickness Ocean Wave Character - KPPs Cloud Particle Size/Distrib Outgoing LW Rad (TOA) Cloud Top Height O3 – Total Column Profile

  7. NPOESS Unaccommodated Environmental Data Records EDRs not Addressed by Notional NPOESS System Pre-Planned Product Improvement (P3I) • Tropospheric winds - CH4 (methane) column • CO (carbon monoxide) column - CO2 (carbon dioxide) column • Optical backgrounds - Bathymetry • Potential Bioluminescence - Salinity • All Weather, Day/Night Imagery (High Res) • Littoral Currents - Coastal Ocean Color • Coastal Sea Surface Temp - Coastal Sea Sfc Winds/Wind Stress • Coastal Sea Surface Height - Ocean Wave Characteristics • Surf Conditions - Oil Spill Location • Vertical Hydrometer Profile - Sea and Lake Ice • Neutral Winds - Coastal Imager IORDI IORDII P3I EDRs Increased to 21 in IORD II

  8. Centrals: NOAA/NESDIS AFWA FNMOC, NAVO NPOESS Baseline Architecture Space Segment DomSat 0530 1330 NPP 1030 NPOESS lite 0930 METOP Mission Data Launch Support Segment Cmd/Tlm/Status & Mission Data IDP Segment (RDR, SDR, EDR) Direct Broadcast Cmd/Tlm/Status C3 Segment McMurdo/ Svalbard DoD/Non-DoD/DoC Field Terminals CDA MMC (Schriever AFB) MMC (Suitland MD) Fairbanks Tlm/Status

  9. 2008 - 2018+ Data Rates • Today we process <1 Mbps (DMSP & POES) • In 2005/8 NPP/NPOESS will process 20 Mbps • Tropospheric Wind Lidar remote sensing from space could add another 10 Mbps • SARs could add 600+ Mbps peak data rate • Provide soil moisture profiles • Coastal sea surface height, temperature, winds • Near shore bathymetry • Coastal Imagery • Surf conditions (surf zone, breaking waves, currents) • Ocean Salinity

  10. Future Ground Systems -- 2025 • Potential Orders of Magnitude Increase in Data Rates • Higher demand for reduced latency • Flexible NPOESS Ground Systems Architecture in place • Additional non-NPOESS Demand for monumental volumes of data processing (from multiple sources) • Geostationary, L-1 and L-2 sources • Ground system sources -- radar, in situ, et al. • Low earth orbit systems (other than NPOESS) • Global Precipitation Mission (NPOESS partial element) • Increased ship-based measurement sources • NASA web of sensors concept fulfills this need NPOESS on the Web -- http://npoess.noaa.gov

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