Post on 03-Jan-2016
GCOM-W1,AMSR-E/ADEOS-II Project Update in EORC
GCOM Research Group in EORCMasato Yamanashi
29th June 2011, NCDC,Asheville, NC
Japanese FY* FY2009 FY2010 FY2011 FY2012 FY2013 FY2014
MajorMilestones
RA
Algorithm
Homepages&
Data Distribute
Cal/Val
RA #1 (W1) RA #3 (W1+Multi-sensor research) RA #5
Development
Prototyping Implementation Testing/Optimization
Keep(AMSR-E)&Preparation (sites, tools, methodologies)
Operational
Issue RA#3(W1+Multi)
W1 Launch
V.1 GEOV.1 TB
Criteria #1
( Revise every 1.5 or 2 years after launch)
Algorithm selection(standard products)
Preparation Operation/Improvement
EORC GCOM Group main tasks and its schedules
Standard Algorithms
・ 3rd RA announced on 21st January, 2011 and closed on 25th March
・ Research areas(Categories): - GCOM-W1 research: algorithm development, validation, and application research - Multi-sensor research: multi-sensor algorithm development and application research
Status of 3rd RA
・ The conclusion of Selection will be announced soon, (at early August)
Parameters Algorithm PI
TPW Kazumori
CLW Kazumori
PRR Aonashi
SST Shibata
SSW Shibata
SIC J.Comiso (led by Cho)
SMC Koike
SND R.Kelly
GCOM-W1 L2 Standard algorithms for the first data release.
Standard Algorithms
・ Decided at the last PI WorkShop in Tokyo, on December 2010
EORC HomepagesEORC Home Pages structure (plan now)
Information Details Contents
TopGCOM-W1 IntroductionMission outline Explanation on mission outlineOperation information Schedules of maneuver, Loss of data etc
Data
Product & Algorithms Sort of products and its developerCalibration & Validation Calibration,Validation plan Validation data Provide validation dataTools Product access tools(AMTK)and so onOrganization (after 3rd RA)ATBD Documents of Algorithms
TopicsPress ReleaseImage GrallyToday’s best shot
Top page of Data Distribute SystemDeveloped by GCOM project Group
Data Distribution System
Data Distribution System
• Select the data from the following choices– Data Categories, the sort of physical parameters( like SST,SSW and so
on)– Satellite or Sensors, etc
• Using shopping trolley icons, more user-friendly• Format exchange functions
AMSR/AMSR-E are HDF4,AMSR2 is HDF5, provided by these original format basically.– GeoTIFF,TIFF– netCDF(netCDF 4 classic model,CF-1.4)– HDF5(for AMSR-E/AMSR only)
Features of this system
Data Distribution System
• We will provide standard products through Data Distribution System( using online ,http,sftp) – Start to provide AMSR-E/AMSR2 soon (plan)– RA research and cooperate organizations
• Start to provide after initial checkout( 3month after the launch)– Other users
• Start to provide after the calibration/validation phase ( 1 year after the launch)
Provide plan
Level Contents
Level-1A• Swath data with geolocation information• Scene counts• ½ orbit starting from northern/southern-most latitudes
Level-1B• Swath data with geolocation information• Brightness temperatures• ½ orbit starting from northern/southern-most latitudes
Level-1R• Swath data with geolocation information• Spatial-resolution matched brightness temperatures• 4 resolution sets (6,10,23,36GHz) and raw swath for 89GHz A/B
Level-2• Swath data with geolocation information• Geophysical parameters (8 parameters)• ½ orbit starting from northern/southern-most latitudes
Leve-3• Grid data with 0.1/0.25 degrees (10/25km) resolution• Brightness temperatures and geophysical parameters• Daily and monthly temporal average• Equidistant Cylindrical and Polar Stereo Projection
• All products are in HDF5 format.
GCOM-W1 Processing Levels
Calibration/Validation• Validation by utilizing the existing observation networks:
– Radiosondes and GPS networks, SST and sea surface wind speed from various buoy system, Ground-based precipitation radar networks, Snow depth and other surface measurements by meteorological agencies, etc.
• Specific field campaigns/monitorings– Soil moisture test sites such as Mongolia, Thailand, and CEOP sites including Australia
Murray-Darling Basin, and Snow depth test site in Yakutsuk.• Potential interaction with other missions
– SMOS and SMAP for soil moisture, GPM GV collaboration for precipitation.
-New AWS testing in Metrological Institute since the beginning of June, untill September- After test, will install to Murry Darling Basin, north-west part of Melbourne, in Australia
Calibration/Validation (new tool)
Next PI meeting
・ PlanAround December or January in Tokyo, together with
other project ,GCOM-C, TRMM/GPM, EarthCARE, setting crosscutting discussion like the last year ,
(only plan, not discussed enoungh, not approved)
choices are - Just after 3rd RA selection, around September or October, 3rd RA
researhers only, introducing work plans each other.- Place ( Tokyo, or western part of Japan because of problems of
reactors and radiation.)
AMSR-E HW Recent Trend (as of 21st,June)ADE B torque
May 1, 2011 - J une 21, 2011
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
11/0
5/01
11/0
5/02
11/0
5/04
11/0
5/06
11/0
5/08
11/0
5/10
11/0
5/12
11/0
5/13
11/0
5/15
11/0
5/17
11/0
5/19
11/0
5/21
11/0
5/23
11/0
5/25
11/0
5/26
11/0
5/28
11/0
5/30
11/0
6/01
11/0
6/03
11/0
6/05
11/0
6/07
11/0
6/09
11/0
6/10
11/0
6/12
11/0
6/14
11/0
6/16
11/0
6/18
11/0
6/20
11/0
6/21
Max
/Min
/Ave
[Nm
]
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
Max
-Min
[Nm
]
ADE B Torque Max ADE B Torque Min ADE B Torque Ave ADE B Torque (Max-Min)
Amplitude are a little bigger than before(pink)
(Light blue)
(yellow)
(light green)
• The following problem are because of aging
- The antenna torque has been unstable than before - 89GHz-B Detector’s output voltage will reach upper limit soon
( expected, around this December)
• To make life longer - The operation to make the dynamic range of Tb a little narrow
=> details are reported EOC/MELCO
AMSR-E HW information