Date post: | 14-Dec-2015 |
Category: |
Documents |
Upload: | peter-farran |
View: | 218 times |
Download: | 3 times |
USDA Forest Service, Remote Sensing Applications Center,
FSWeb: http://fsweb.rsac.fs.fed.usWWW: http://www.fs.fed.us/eng/rsac/
LANCE User Working Group Briefing
Brad QuayleUSDA Forest Service Remote Sensing Applications
Center (RSAC)
LANCE User Working Group MeetingNovember 16-17, 2010
Remote Sensing Applications Center (RSAC)
• National Technical Center; Located in Salt Lake City, Utah
• Mission: Assist all levels of the agency, and external agency partners, in applying the most advanced geospatial technologies for improved monitoring and mapping of natural resources
• Operational MODIS direct readout data collection since 2002
RSAC X-band antenna in radome
Area of interest
SSECRSAC
UAF
NASA DRL
MODIS Ground Station Network• L0/L2 data continuously acquired and compiled at RSAC
for further processing
• NASA operational MODIS data distribution systems provide additional coverage and backup ground station network
− MODIS Rapid Response System (LANCE)− LAADS
MODIS Data Processing
L2 MOD14 Data via LANCE
(every 15 minutes)
MODIS DR Ground Station Network
Selected MODIS L0/L2 Data
(every 15-20 minutes)
USFS-RSAC IPOPP Processing System
Selected L0 Data
L0 Data(12-14 GB
daily)
L2 Products
L2 Products(~30 GB daily)
L2 Product Stream
IPOPP L2/L3 Products• Active Fires (MOD14)• Land Surface Temperature
(MOD11)• Corrected Reflectance (CREFL)• Surface Reflectance (MOD09)• NDVI/EVI (MOD13)• Burn Scar (L. Giglio)• AOD (MOD04)• TPW (MOD05)• Cloud Mask (MOD35)• Cloud IR Phase (MOD06)• Cloud Top Pressure (MOD06)• Sea Surface Temperature
(MOD28)
International Polar Orbiter Processing Package (IPOPP) used for L0 -> L2 processing
Active Fire Mapping (AFM) Program(http://activefiremaps.fs.fed.us)
Operational, NRT detection and monitoring of wildland fire activity in CONUS, Alaska, Hawaii & Canada
• Leverages NASA and NOAA assets
− MODIS− AVHRR
• Facilitates decision support for strategic wildfire planning and response for U.S. and Canadian fire agencies
− Prioritize allocation of fire suppression assets
− Focus tactical airborne reconnaissance assets
− Integrated into several fire-related applications and decision support systems
− GOES− Future polar/geo
sensors
AFM Value-Added Fire ProductsMapping/Visualization Products• JPG/PDF fire detection maps• Interactive fire detection map
viewers• Google Earth fire detection
KMLs/KMZs • Detection analysis/summary
products
Imagery/Geospatial Data Products• Georeferenced image subsets• Fire detection GIS datasets• WMS/WFS services
• Update frequency: Every 15 to 60 minutes or immediately after every satellite observation
• Ongoing coordination with fire management community to develop products to meet operational needs
Example Fire Management ApplicationData Input for Spatial Fire Behavior Systems/Models - WFDSS
FS-Pro (Fire Spread Probability) Model
• Probability of fire spread from a known location in the absence of suppression
• Used for long-term projections of ongoing fires
• Used in conjunction with data about values at risk
MODIS data provides fire locations for initial model runs when other sources of intelligence are lacking.
FS-Pro results help managers determine an “Appropriate Management Response” to fires from a strategic and tactical stand point and prescribe adequate resources for fire containment.
MODIS fire detections
• NRT L2 MODIS land, atmosphere and ocean products produced by IPOPP
• Downloadable L2 swath datasets and value-added products
−GeoTiff format
−Quicklook maps
−Google Earth KMZs
• Distribution node for L0 data collected via RSAC antenna
• Supports national/regional scale resource management and monitoring
Forest Service Direct Readout Data Portal(http://directreadout.fs.fed.us)
Example Monitoring ApplicationForest Disturbance Detection and Monitoring
Annual aerial detection survey (ADS) flights conducted by Forest Service Forest Health Monitoring Program
− Specifically map areas of insect, disease or weather-related damage
Prototype MODIS-based change detection program by RSAC identifies forest disturbances/anomalies
Provides information to prioritize ADS flights
− Provide guidance on where to go vs. where not to fly (omission and commission error important)
− 7-10 day response time
Forest Disturbance Detection ProductsReflectance composites for change detection analysis
Nationwide geospatial disturbance products every 8 days
Michigan forest tent caterpillar outbreak 2010
Current year 16-day composite using NRT data
Baseline multi-year composite for same 16-day period; “normal
conditions”
• Provide information on alternatives for acquiring NRT EOS data to support users with minimal latency requirements
• L2 science products < 30-60 minutes post-acquisition are feasible via direct readout (DR) community
−Numerous EOS DR ground stations with data distribution portals
−Regional DR data sharing networks in place to support NRT application objectives and increase efficiencies
−DR data processing technologies are freely available that provide self-contained, scalable frameworks with access to latest SPAs• Increasingly being utilized by DR ground stations
• Available to any user to generate higher level products from L0 data
Suggested LANCE Enhancements Data Latency Considerations
• Additional output formats (GeoTiffs, etc.)
• File compression for faster download
• Additional methods of accessing L2 swath data by FTP download
−Index directories by grid referencing system common to the user community (i.e. tiles, etc.)
• OGC-compliant data/mapping services − WMS for mapping/visualization− WCS for data extraction and analysis
• Integration of custom products for targeted applications
• Coordination with other space agencies to facilitate similar NRT data delivery framework for future sensors
− GCOM-C SGLI (JAXA)− Sentinel 3 SLSTR (ESA)− GOES ABI (NOAA)
Suggested LANCE EnhancementsGeneral Considerations
USDA Forest Service, Remote Sensing Applications Center,
FSWeb: http://fsweb.rsac.fs.fed.usWWW: http://www.fs.fed.us/eng/rsac/
Thanks
Comments/Questions?