Recommended
Recommended
More Related Content
What's hot
What's hot (20)
Viewers also liked
Viewers also liked (20)
Similar to NEON Airborne Operations
Similar to NEON Airborne Operations (20)
Recently uploaded
Recently uploaded (20)
NEON Airborne Operations
- 1. 1 NEON AIRBORNE OBSERVATION PLATFORM (AOP) OVERVIEW Keith Krause, Algorithm Scientist National Ecological Observatory Network
- 2. 2 Integrated Observations Waveform Light Detection and Ranging + What are we after? • Detailed chemical, structural and taxonomic information on ecosystems at fine spatial resolution 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 350 850 1350 1850 2350 Reflectance Wavelength (nm) Aspen Conifer 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 350 850 1350 1850 2350 Reflectance Wavelength (nm) Snow 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 350 850 1350 1850 2350 Reflectance Wavelength (nm) Desiccated Grass Fallen dead pine Desiccated Bush Aspen & Pine Dead Grass Snow
- 4. 4 NEON Airborne Observation Platform (AOP) Airborne Instrumentation (x3) Waveform-LiDAR NEON Imaging Spectrometer Airborne digital camera GPS/Inertial measurement unit AOP Sensor Technical Facility Optical calibration lab, and sensor maintenance and support facilities Scientific, Flight & Ground Operations 3 leased De Havilland DHC-6-300 twin turbo prop Twin Otter aircraft Science Crew: 2 NEON personnel for sensor flight operations Scientific staff conducting ground measurements (field spectrometers, sun photometers, etc) and producing science data products
- 5. 5 Payload Instrumentation 5 NEON Imaging Spectrometer Optech ALTM Gemini system GPS/IMU integrated with LiDAR system Waveform digitizer High Resolution Digital camera integrated with LiDAR systemPayload integration Mount showing integrated remote sensing payload
- 6. 6 NEON AOP Product Catalog Level 1 Product ID Product Description AOP.1.0001 LiDAR vertical waveform AOP.1.0002 Spectral reflectance AOP.1.0003 Spectral radiance AOP.1.0004 High resolution imagery Level 3 Product ID Product Description AOP.3.0001 LiDAR vertical waveform, nearest neighbor AOP.3.0002 LiDAR vertical waveform, spatial average AOP.3.0003 Spectral reflectance AOP.3.0004 High resolution imagery Level 4 Product ID Product Description Level 4 Product ID Product Description Bioclimate_004 Leaf Area Index (LAI) Map Biogeochemistry_012 Canopy Chlorophyll Bioclimate_010 Albedo Map Biogeochemistry_013 Canopy Lignin Bioclimate_016 fPAR Biogeochemistry_018 Ecosystem Exchange Map Biodiversity_016 Vegetation Species Distribution Map Land_Use_002 Elevation Biodiversity_018 Ecosystem Structure Land_Use_004 Slope and Aspect Biogeochemistry_006 Biomass Map Land_Use_008 Land Cover Classification Biogeochemistry_009 Canopy Nitrogen Land_Use_010 Streams and Rivers Biogeochemistry_010 Canopy Water Content Land_Use_014 Watershed Boundaries Biogeochemistry_011 Canopy Xanthophyll Cycle (PRI)
- 7. 7 Aircraft Integration of the AOP Instruments
- 8. 8 Overlay of Day 1 Flight lines Spectrometer Data after Initial Geolocation Correction • ww Grand Junction and Grand Junction Airport Geometric Correction
- 9. 9 Radiometric Calibration • Relate NEON Imaging Spectrometer digital output to collected light – Light level collected – Output of NIS • Accurate output of source used in calibration is required – NIST FEL lamp – Spectralon Panel – Transfer Radiometer – Calibration of sphere radiance • Transfer Radiometer is vital to this method of calibration
- 10. 10 Vicarious Calibration at Ivanpah Playa: Reflectance-based Method Radiative Transfer Code 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 350 850 1350 1850 2350 Reflectance Wavelength (nm) 3% Trap 48% Tarp Light blue tarp Dark blue tarp Site 0.0 2.0 4.0 6.0 8.0 10.0 12.0 14.0 16.0 18.0 350 850 1350 1850 2350 Radiance Wavelength (nm) MODTRAN5 NISDVU
- 11. 11 Harvard Forest and Quabbin Reservoir Test Flight Area
- 12. 12 Example of High Density Collection
- 13. 13 Ground-based Spectral Collections at Harvard 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 350 850 1350 1850 2350 Reflectance Wavelength (nm) Beech front w/ black American Chestnut front w/ black Oak 1 front w/ black Red Maple front w/ black 3 leaf sample White Pine w/ black Hemlock front w/ black Collected Spectra with ASD Plant Probe across Harvard Forest • Dominant Species collected • 20 locations determined from a stratified random sampling protocol • Leaves sent in for chemical analysis • 220+ individual samples
- 14. 14 High Park Fire, CO with CSU and Others • What is the state of the landscape at the conclusion of the High Park fire • How did conditions prior to the fire affect fire behavior and impacts • How does fire severity and pattern affect post-fire trajectories
- 15. 15 NEON Domain17 CA Campaign, June 2013 Collaboration With HyspIRI Airborne Prep Mission
- 16. 16 NEON NIS1 Airborne and Field Spectral Data - SJER Plot 192 - Mixed Blue and Live Oak Sample F016: Live Oak – NIS1 Data of Canopy Spectra Plot 192 – Sample F016 Field Photos ASD Field Spectrometer Data of individual leaf Water absorption features
- 17. 17 • AOP flew 21 days of flights in 2012 including: – Test flights around Grand Junction, CO and part of Grand Mesa National Forest, CO – Cuprite, NV, – Radiometric calibration flight at Ivanpah, CA – Nominal collections and instrument/altitude tests at Harvard Forest, MA – Two flight campaigns to map the High Park Fire burn scar here in Colorado • Data collection in 2013 includes: – Test flights in Grand Junction, CO – Radiometric calibration in Railroad Valley, NV – Nominal data collections in Domain17 (San Joaquin, Soaproot Saddle, and Lower Teakettle, CA) – Nominal data collections in Domain10 (CPER, Sterling, and RMNP CASTNET, CO) – Re-flight of the High Park Fire burn scar • Data collection in 2014 includes: – Test flights in Grand Junction, CO – Radiometric calibration in Railroad Valley, NV – Nominal flights at all three D03 sites: Disney, Ordway-Swisher Biological Station, and Jones Ecological Research Center – Nominal flights at D01 sites: Harvard Forest, Bartlett Forest, and Burlington – More engineering flights to come plus re-flight of the High Park Fire burn scar • We are currently working on data processing. Some of the D17 provisional data has been recently released to the science community and we hope to release the D03 and D01 data in the near future. High Level Update
- 18. 18 The National Ecological Observatory Network is a project sponsored by the National Science Foundation and managed under cooperative agreement by NEON Inc.