Some Thoughts on Transitioning to NPP Paul Menzel (with input from Jeff Myers) Issues Continuing MODIS through NPP/NPOESS and beyond Preparing for VIIRS.

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Presentation transcript:

Some Thoughts on Transitioning to NPP Paul Menzel (with input from Jeff Myers) Issues Continuing MODIS through NPP/NPOESS and beyond Preparing for VIIRS participation in VIIRS OAT P3I Assuring viable Cal/Val Planning evolution of MAS VIIRS Airborne Simulator

NPOESS Products (NPOESS IORD Environmental Data Records by Instrument)

NPOESS Products (NPOESS IORD Environmental Data Records by Discipline) Environmental Data Records (EDRs) with Key Performance Parameters

VIIRS, MODIS, FY-1C, AVHRR H2O O2 CO2 H2O O2 O3 H2O O2

Earth emitted spectra overlaid on Planck function envelopes MODIS VIIRS H20 CO2 O3 CO2

Planning the VIIRS Airborne Simulator

MODIS Airborne Simulator (MAS) Spectral Bands

VIIRS Airborne Simulator (VAS) Concept Rationale: Collect high-resolution, calibrated data to validate the on-orbit performance and calibration of the VIIRS instrument Build a feature-rich VIIRS-like data set for the development and test of CDR and EDR product algorithms, prior to NPP/NPOES launch Approach: Capitalize on the NASA MODIS and ASTER Airborne Simulator Programs (MAS and MASTER) and U.W. S-HIS experience Leverage ongoing development programs for accelerated deployment Apply MAS “lessons-learned” and operational experience for risk reduction.

MAS Lessons Spectral stability is critical for atmospheric bands Flat-plate blackbody design not capable of <1 degree accuracy Cross-track polarization needs to be addressed Onboard calibrator for Vis/SWIR bands highly desirable Scattered light inside scan cavity needs to be reduced Internal IR background radiation has to be better suppressed Replace gratings with bandpass filters for LWIR bands Eliminate linear-variable filters (LVFs) from design Additional SWIR and LWIR water vapor bands are useful

Design Features Single large dewar for LWIR bands and cold secondary optics to reduce background noise Filter-based spectral differentiation in M/LWIR bands Added 6.7um (and possible 1.88um) band Improved blackbody design, based on S-HIS experience Visible/SWIR calibrator De-polarization methods to be investigated Fully supported by Ames Calibration Lab (NIST-traceable) Utilize ground-processing and archive software from MAS (including Level-1B/HDF data production system)

VAS Spectral Bands VIIRS # Center (nm)  (nm) SNR/NE  T* 1.M M M M M M M M  m M M MAS M M NE  T 14.M MOD M M M MOD * Based on the equivalent VIIRS orbital pixel size

Phased Development Approach Phase 1: Implement VIIRS Bands on the NASA MAS System Design and build a VIIRS-like Spectrometer, compatible with the exisiting MAS Opto-Mechanical Module (OMM) and data system and begin collecting data. Phase 2: Build a dedicated VIIRS Airborne Simulator Instrument (based on an improved MAS design) Design and build: -- Dedicated Opto-Mechanical Module (with new-design blackbodies) -- New data system (MAS follow-on design) Phase 3: Advanced technology system -- Design and build next-generation airborne line-scanner -- Re-use high-value elements (e.g. filters, detector arrays) -- Long-term solution for VIIRS airborne simulation -- UAV-Compatible

Estimated Development Timeline Phase 1 – VAS Spectrometer 16 Months Phase 2 – Data System, OMM & Calibrators 18 Months Phase 3 – Advanced System TBD All phases could be conducted in parallel. (Seed-money for preliminary design work could accelerate schedules.)