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NPOESS Preparatory Project Science Objectives

This document outlines the science objectives of the NPOESS Preparatory Project (NPP) and the transition from EOS to NPP sensors and data products. It also highlights the significant differences between EOS and NPP operational products.

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NPOESS Preparatory Project Science Objectives

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  1. NPOESS Preparatory Project Science Objectives Pete Kealy UMBC at NASA/GSFC & Entire NPP Team October, 2005

  2. Agenda • NASA’s Measurement Based Approach • Ocean Color • Ozone • EOS to NPP Transition Sensors and Data Products • NPP Contribution to the NASA Objectives • SDS • NPP Science Team • Significant Differences between EOS and NPP Operational Products

  3. NPP Origins • NPP is a joint partnership between NASA’s Science Mission Directorate (formerly the Office of Earth Sciences (OES)) and the NPOESS Integrated Program Office (IPO) initiated in 1998 • Feasibility study began in November 1998 • Formulation began in November 1999 • NASA Confirmation Review completed in November 2003 • The partnership provides both organizations with considerable cost savings while achieving their key program objectives: • To provide NASA with continuation of a group of global change observations initiated by the Earth Observing System (EOS) TERRA, AQUA, and Aura missions • To provide the NPOESS operational community with pre-operational risk reduction demonstration and validation for selected NPOESS instruments, and algorithms, as well as the ground system

  4. NPP in NASA’s Future Data Processing • The NPP Science Charter is to: Continue the scientific data record started in the EOS era. • NASA is moving toward “Measurement-based”, not “Mission-based,” science and data processing teams. • Processing done by a Climate Analysis Research System (CARS) • NPP is the first post-EOS mission to have this new science data processing strategy. • NPP data products will be produced by NPOESS data processing system (IDPS) • NPP data products will be archived by NOAA (CLASS/LTA). • NPP data products will be assessed for science data quality at the NASA Science Data Segment (SDS). • NPP EDR assessment will be done by the NPP Science Team. • SDS is part of science-discipline-based, community algorithm science data processing system.

  5. Discipline Processing Rationale • Uses/requires existing expertise and infrastructure • Minimizes expense & start-up time • Allows handling of multiple data sets simultaneously • Not limited to mission-specific requirements and objectives • Provides flexibility to support discipline science requirements • Products, algorithms, formats, gridding, reprocessings, etc. • Facilitates strong link between flight projects & science community • Requires discipline teams responsive/accountable to the flight project(s) Distributed Science-led Geophysical Product Generation/Support Best approach for CDR generation/maintenance

  6. GSFC Ocean Color Program Background:A Long History of Achievement • Nimbus-7 Coastal Zone Color Scanner (1978-1986) • Airborne Oceanographic Lidar (mid-1970’s-present) • Community Processing & Analysis Software • SEAPAK (1982-1991); SeaDAS (1991- present) • Nimbus-7/Coastal Zone Color Scanner Global Reprocessing (1985-2000) • MODIS & MODIS Ocean Team (1989-present) • SeaWiFS Project (1991-present) • Sensor Intercomparison & Merger for Biological & Interdisciplinary Ocean Studies Project (SIMBIOS; 1996-2003) • Ocean Color Climate Data Record (CDR) Development (REASoN-CAN; recent selection) • NASA NPP Science Team (VIIRS ocean color, recent selection) • Designated as NASA’s Ocean Color Discipline Group and assumed responsibility for MODIS Ocean Color Processing (Feb. 1, 2004)

  7. Ocean Biology Processing System Present (EOS, other) Future (NPP) Data Set Category: Funding Source Historical (REASoN-CAN) NPP VIIRS Aqua MODIS Terra MODIS# SeaWiFS GSFC DAAC CZCS & OCTS Reconfigurable & Scalable • Science • Community • Interactive • Knowledgeable Staff • Enabling Activities • (SeaBASS, SeaDAS, • Calibration RR, etc.) • Flexible • Processing • Multiple Missions • Rapid Reprocessing • Parallel Processing • Streams (operational, • algorithm & cali- • ration testing, eval- • uation products) • MAIN PROCESSING SYSTEM • Data from multiple satellite and instrument types • In-situ, ancillary, and other data L1 DATA L1-L3 DATA Data Users OBPG Management & Staff Community Agreed Standards and Protocols MCST* NASA HQ Program Management NASA Flight Projects Science Community In Situ Data * MODIS Characterization Support Team (NASA/GSFC) # Terra MODIS OC processing suspended in Jan. 2004

  8. Satellite vs Ground-based Total Ozone

  9. Ozone: A True NASA/NOAA CDR • Ozone is adjusted to NOAA-9 • Validated against Dobson Stations • Reprocessed when new algorithms are developed • Compared with models

  10. NPP Continues Data Time Series Year Measurement System Conventional OperationsEOS Technology JumpResearch Quality Operations

  11. nLw embedded in ocean color product Surface reflectances available as intermediate product

  12. Science Data Segment (SDS)

  13. NASA • IPO -NOAA Space Segment • Spacecraft • ATMS Launch Support Segment (LSS) • VIIRS • CrIS • OMPS • Launch vehicle • Launch Support • Payload Processing support Command, Control & Communication Segment (C3S) • Manage Mission • Manage Satellite Operations • Space/Ground Communication • Data Routing & Retrieval Science Data Segment (SDS) Interface Data Processing Segment (IDPS) • Ingest and validate RDRs • Support Climate Research • Ingest and validate raw SMD • Process RDRs, SDRs, EDRs • Perform operations cal proc • Distribute data records Archive & Distribution Segment (ADS) • Ingest & validate data records • Manage archive • Interface with users NPP Mission Segments Space Segment NPP CCSDS Application Packets

  14. SDS Mission Statement • The NPP SDS is intended to be a research tool for the purposes of facilitating prototype elements for the future Earth Science Enterprise distributed sciences data systems • The NPP SDS assess EDRs for climate quality • The NPP SDS can provide Algorithm Improvements • The SDS is a distributed architecture with 5 functionally independent elements called Product Evaluation & Algorithm Tool Elements (PEATEs) centered around: Ocean, Land, Atmosphere, Ozone, and Sounder • The SDS PEATEs support the Cal/Val activities in processing selected data subsets

  15. NASA’s Science Data Segment (SDS) ProvidesTest Bed for xDR Analyses NPP Science Team CARS: GSFC Oceans McClain, Charles Wang, Menghua Minnett, Peter Justice, Christopher Loveland, Thomas Lyapustin, Alexei Maslanik, James Privette, Jeffrey Ranson, Jon Schaaf, Crystal Vermote, Eric Wolfe, Robert Baum, Bryan Han, Qingyuan Menzel, Paul Stamnes, Knut Torres, Omar McPeters, Richard Pagano, Thomas Fishbein, Evan Revercomb, Henry Lambrigtsen, Bjorn Staelin, David Strow, Larrabee SDS Components NPP PEATE Network Infrastructure CARS: Land MODAPS NPP PEATE SD3 RDRs SDRs EDRs CARS: Atmosphere Uni Wisconsin NOAA / CLASS NPP PEATE I/T System IPO / IDPS RDRs SDRs EDRs CARS: Ozone TOMS/OMI SIPS NPP PEATE CARS: Sounder. JPL CARS: Climate Analysis Research System PEATE: Product Evaluation &Test Element NPP PEATE Project Science Office NICST

  16. SDS Elements • SD3E – SDS Data Delivery & Depository Element • Supports acquisition and temporary storage of data from NOAA/CLASS and IDPS • Capable of storing up to ~32 days of NPP xDR data in a “rolling storage” for pick-up by PEATEs and the NICSE • Communication Networks • I&TSE – Integration and Test System Element • A Mini-Version of the IDPS for purpose of demonstrating algorithm enhancements and / or calibration improvements • Intermediate Product Generation • PSOE - Project Science Office Element • Provides management direction and science guidance to the SDS Elements • Manages algorithm and calibration recommendations for submission to the NPP/NPOESS Algorithm CCB (TBR).

  17. SDS Elements (Cont’d) • PEATE – Product Evaluation and Algorithm Test Element • Performs EDR Evaluation / Characterization and algorithm improvements coordinated with External Science Investigators, and Science Team, and NICSE (for Land, Ocean, & Atmosphere PEATES). • Five PEATEs are: • Ocean Color • Land • Ozone • Sounder • Atmosphere • NICSE - NPP Instrument Calibration Support Element • Supports assessing and validating pre-launch and post-launch radiometric and geometric characterization and calibration assessment of VIIRS instrument data.

  18. Pre Launch Acquire, adapt and integrate operational SDR and EDR processing software into processing Systems Perform functional testing of operational code. Acquire and manage various preflight instrument characterization data sets provide to ST. Support Interface Confidence Tests, Functional Thread Tests and NPP Compatibility Tests Support (as needed) generation of test data sets for software and algorithm testing. Post Launch Acquire all RDRS, selected SDRs, EDRs and ancillary data Process RDRs to SDRs and EDRs using operational code using alternative calibration LUTS Process SDRs to EDRs using revised or alternative algorithms, as directed by ST Support browse and distribution of locally generated xDRs to ST Perform matchups and evaluation of EDRs with other Mission Data, e.g., MODIS, SeaBASS SDR Evaluation for Long-term stability PEATEs

  19. NASA’s NPP Science Team • Science Team (ST) • 23 PIs (SDRs and EDRs) chosen by peer-review NRA selection process • Charge: • Evaluate operational xDRs for use in climate research • Recommend improvements to operational algorithms • Determine path forward for climate-quality products from NPP/NPOESS • Project Science Group (PSG) • ~11 member contractor/university staff – NPP Project supported • Direct Broadcast Office • P. Coronado • 4 NASA instrument scientists • NPP Instrument Characterization Support Team (NICST) • 3 persons, growing role as instruments mature http://nppwww.gsfc.nasa.gov/

  20. EOS to NPP Principal Differences • Sensor Differences • VIIRS has no TIR bands beyond 13mm • Alternate cloud top algorithms developed • VIIRS thermal band range limitations • prevent detection of small/medium fires in some cases, and characterization (area, temperature) of large/hot fires • Geolocation • Land algorithms require precise geolocation information • NPP and NPOESS will be approximately 2X and 3X worse than MODIS, respectively • Algorithm Implementation Differences • Latency (the need for speed) may influence processing implementations not considered for EOS • Algorithm versions in the operational system may not be in sync with the latest EOS versions • Metadata and quality information may be different • Several key EOS biophysical products such as LAI, FPAR, burn scar, detection are beyond NPOESS scope • Processing higher than level 2 is beyond NPOESS scope • Reprocessing is beyond NPOESS scope

  21. NPP Science Summary • NPP has no traditional NASA “Science” Charter • Climate and Science processing performed by CARS • NPP facilitates the use of NPOESS data by funding PEATES within the SDS • SDS is a research tool used to assess climate data quality of EDRs • NPP Science Team will assess EDR algorithms and sensor developments for climate study suitability and advise Project & Program Scientists • NPP Science Team will work through the Operational Algorithm Teams (OATs) to provide potential algorithm updates for NPOESS

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