1. LANCE AMSR-E Status Helen Conover, UAHuntsville, hconover@itsc.uah.eduhconover@itsc.uah.edu Kathryn Regner, UAHuntsville, kregner@itsc.uah.edukregner@itsc.uah.edu LANCE User Working Group Meeting November 16, 2010

2. Overview The Advanced Microwave Scanning radiometer – Earth Observing System (AMSR-E) is a passive microwave radiometer built by the Japan Aerospace Exploration Agency and launched aboard Aqua on 4 May 2002.  Summary of Products  AMSR-E is designed to detect water in all its state phases in the environment and monitor the water processes that exert a strong influence on climate and weather.  Products generated include Brightness Temperatures, Rain Rate, Soil Moisture, Ocean Products, Snow Water Equivalent, Sea Ice  Redundancy Status  Two independent strings of equipment, one located at the National Space Science and Technology Center and the other at the Olin B. King Technology Hall. Both strings are located on the UAHuntsville campus and managed by SIPS personnel, but are connected to different networks. 2LANCE UWG Meeting College Park, MD

3. Overview (2)  User Support  GHRC User Services Office National Space Science and Technology Center 256-961-7932 ghrc@eos.nasa.govghrc@eos.nasa.gov  NRT versus Standard Product Comparison  Currently the LANCE Level-2A processing algorithm is one version behind SIPS standard products algorithm.  We are planning a two-pronged approach for the product comparisons:  a pixel-by-pixel comparison of each of the variables of interest in the Level-2 products, with differences binned and displayed on histograms.  for the Level-3 products, we are planning to create standard and NRT images plus a “difference image” for each of the variables of interest. 3LANCE UWG Meeting College Park, MD

4. System Latency Metrics LANCE UWG Meeting College Park, MD 4 L2A Brightness Temperatures Latency for the last 30 days Number of files produced: 903 L2B Products (land, ocean, rain) Latency for the last 30 days Number of files produced: 2709 Data latency requirement = < 3 hrs Processing latency requirement = < 20 minutes Latency to data product Minimum Maximum Average Late From first observation 1:18:17 4:57:15 2:24:02 156 (17.3%) From last observation 28:52 4:07:50 1:34:37 5 ( 0.6%) From data arrival at SIPS 2:47 10:29 3:53 0 ( 0.0%) Latency to data product Minimum Maximum Average Late From last observation 29:35 4:10:41 1:36:03 15 ( 0.6%) From first observation 1:19:00 5:00:06 2:25:28 559 (20.6%) From data arrival at SIPS 3:30 12:32 5:20 0 ( 0.0%)

5. System Access Metrics LANCE UWG Meeting College Park, MD 5 Timeframe#FilesVolume 09/27-30/201020.02 GB 10/01-31/201049812.36 GB 11/01-14/2010131442.61 GB Information extracted from 2010-11-15 User Registration System (URS) Reports Number of UsersCountryAffiliation 1BrazilEducation 1ItalyGovernment 1United KingdomGovernment 1 United States Commercial 3Government 3Education Total: 10 User Characterization Product Distribution Summary

6. Changes Since December 2009  In March 2010, the AMSR-E SIPS was tasked to transition the AMSR-E processing from the MODIS systems at GSFC to the SIPS in Huntsville. Work started in April.  First string of hardware began operations on September 27 th.  Redundant second string of equipment began operations on November 1st.  Both strings include authentication via ESDIS User Registration System, logging statistics into the ESDIS Metrics System, local and LANCE-central web pages, publicly accessible FTP servers and data access via web interfaces.  New Products Added: Level-3 daily land, ocean, sea ice and snow  Planned System Upgrades:  Integration of Remote Sensing System’s (RSS) new Level-2A algorithm, designed and implemented specifically for near real-time processing, is planned for December 2010.  Currently implementing subscription service  Currently analyzing system failover options  Coding of NRT versus standard product comparison is in progress 6LANCE UWG Meeting College Park, MD

7. Discussion: Potential Upgrades – LANCE AMSR-E  Is there a need for providing data in BUFR format?  SIPS discussed this with a user at the A-Train poster session (Sabatino Di Michele, ECMWF). He currently gets AMSR-E data in this format from the NOAA NRTPE system.  Is there an interest in incremental daily products?  Create partial daily products products several times per day from available L2 data. This would decrease data latency for Snow and Sea Ice products.  Is there an interest in subsetting AMSR-E data?  Currently providing this capability at the SIPS for AMSR-E science and validation teams. This capability is very popular for users seeking data and/or imagery in low bandwidth situations, e.g., during remote field campaign support.  Is there interest in running the AMSR-E data through the MODIS Rapid Response System?  Gallery of images, side-by-side with other element imagery, on the LANCE Central website. Candidate products: 89 GHz Tbs, Instantaneous Rain Rate, Surface Soil Moisture, Daily Sea Ice Extent (concentration). Candidate usage might be for first responders and disaster detection.  Is there a need for near real-time browse imagery?  Native swath projection or gridded? 7LANCE UWG Meeting College Park, MD

8. Backup Slides  Background Material  Data Flow  Comparison of “First Ob/Last Ob” Latency  Product List  Redundancy Architecture Drawings  Client Affiliation and Applications 8LANCE UWG Meeting College Park, MD

9. AMSR-E Data Flows LANCE UWG Meeting College Park, MD 9

10. Comparison of “First Observation versus Last Observation” Latency LANCE UWG Meeting College Park, MD 10

11. Data Set Short NameData Set Long NameSample Imagery AE_L2A_NRTNRT AMSR-E/Aqua L2A Global Swath Spatially-Resampled Brightness Temperatures (Tb) AE_Ocean_NRTNRT AMSR-E/Aqua L2B Global Swath Ocean Products derived from Wentz Algorithm AE_Land_NRTNRT AMSR-E/Aqua L2B Surface Soil Moisture, Ancillary Parms, & QC EASE-Grids AE_Rain_NRTNRT AMSR-E/Aqua L2B Global Swath Rain Rate/Type GSFC Profiling Algorithm AE_Land3_NRTNRT AMSR-E/Aqua Daily L3 Surface Soil Moisture, Interpretive Parms, & QC EASE-Grids LANCE AMSR-E Products 11

12. AE_DyOcn_NRTNRT AMSR-E/Aqua Daily L3 Ascending/Descending.25x.25 deg Ocean Grids AE_DySno_NRTNRT AMSR-E/Aqua Daily L3 Global Snow Water Equivalent EASE-Grids AE_SI6_NRTNRT AMSR-E/Aqua Daily L3 6.25 km 89 GHz Brightness Temperature (Tb) Polar Grids AE_SI12_NRTNRT AMSR-E/Aqua Daily L3 12.5 km Tb, Sea Ice Conc., & Snow Depth Polar Grids AE_SI25_NRTNRT AMSR-E/Aqua Daily L3 25 km Tb and Sea Ice Concentration Polar Grids LANCE AMSR-E Products (Continued)

13. 13 System Redundancy (1)

14. System Redundancy (2) 14

15. LANCE AMSR-E User Affiliation LANCE UWG Meeting College Park, MD 15 Information extracted from the 2010-11-15 User Registration System (URS) Report FirstNameLastNameCountryAffiliation TomDe GroeveItalyGoverment DavidHebertUnited StatesGoverment FrankLaFontaineUnited StatesCommercial BruceMcKenzieUnited StatesGoverment YaswantPradhanUnited KingdomGoverment MarkSchwabUnited StatesEducation JoaoTrindadeBrazilEducation JoeTurkUnited StatesGoverment KungHwaWangUnited StatesEducation AnthonyWimmersUnited StatesEducation

16. LANCE AMSR-E Product Distribution LANCE UWG Meeting College Park, MD 16 Information extracted from the 2010-11-15 User Registration System (URS) Report By Product MonthUsernameProductFilesMBs 10-Sepkwang127AE_RAIN_NRT221.188 10-Octdaveh150AE_L2A_NRT289.724 10-Octdaveh150AE_SI12_NRT15890.815 10-OctflafontaAE_OCEAN_NRT45550.154 10-OctflafontaAE_RAIN_NRT52550.179 10-OctgeticeAE_SI12_NRT5296.938 10-OctjoaotrindadeAE_LAND3_NRT161.919 10-OctjoaotrindadeAE_L2A_NRT146.123 10-OctjturkAE_L2A_NRT1727700.857 10-OctschwabmAE_SI25_NRT10.413 10-OctwimmersAE_OCEAN_NRT2022469.421 10-OctyaswantAE_LAND_NRT21.021 10-Novdaveh150AE_OCEAN_NRT212.209 10-Novdaveh150AE_SI6_NRT144.319 10-Novdaveh150AE_SI25_NRT119.572 10-Novdaveh150AE_LAND_NRT10.841 10-Novdaveh150AE_SI12_NRT459.396 10-Novdaveh150AE_L2A_NRT145.611 10-NovdegroeveAE_L2A_NRT48921679.704 10-NovflafontaAE_DYSNO_NRT24.113 10-NovflafontaAE_RAIN_NRT43455.065 10-NovflafontaAE_OCEAN_NRT43525.696 10-NovjturkAE_L2A_NRT36316339.17 10-NovwimmersAE_OCEAN_NRT3644449.546 Totals 181454.99 GB