Water Vapour Assessment Jörg Schulz, EUMETSAT Christian Kummerow, CSU Bojan Bojkov, ESA.
An Intercalibrated Microwave Radiance Product for Use in Rainfall Estimation Level 1C Christian...
-
Upload
theodore-robbins -
Category
Documents
-
view
212 -
download
0
Transcript of An Intercalibrated Microwave Radiance Product for Use in Rainfall Estimation Level 1C Christian...
An Intercalibrated Microwave Radiance Product for Use in Rainfall Estimation
Level 1C
Christian Kummerow, Wes Berg, G. Christian Kummerow, Wes Berg, G. ElsaesserElsaesser
Dept. of Atmospheric ScienceDept. of Atmospheric Science
Colorado State UniversityColorado State University
3rd IPWG WorkshopMelbourne, AustraliaOct. 23-27, 2006
Original Motivation
GPM will fly a constellation of radiometers to provide ~3-hourly sampling. If the radiometers are not inter-calibrated, neither will the rain rates.
Except for the dedicated GPM radiometers (GMI), the remaining set belongs to US and International agencies that have differing experience and requirements for calibration. These agencies may or may not support calibration activities once their own requirements are met.
Level 1C is an attempt to overcome political and programmatic issues and return “calibration” and data stewardship to the rainfall community
Level 1C aims to simplify formats and toolkits. “If a graduate student knows how to read data from one sensor, they can read it from all sensors”
TMI 10.7 19.4 21.3* 37 85.5 53.4º
AMSR-E 6.9 10.7 18.7 23.8 36.5 89 55.0º
SSM/I 19.4 22.2* 37 85.5 53.1º
SSMIS 19.4 22.2* 37 91.7 150** 183.3+/-1, 3, 7** 53.1º
WINDSAT 6.8 10.7*** 18.7*** 23.8 37*** 49.9º-55.3º
SensorIncAngChan Freq (GHz) *V-Pol only **H-Pol only ***V, H, +/45º, L, R
Today’s GPM constellation
AMSR-E Calibration Differences
Effect of SSM/I Calibration on rainfall
Inter-calibration Procedure
Select coincident overpasses (±30 min.) of TMI and SSM/I (other sensors will be done in same fashion but waiting for next version of algorithm below)
Use current retrieval method (OE in non-raining + PR adjustment in rain) to
derive geophysical parameter field that is consistent with each TMI Tb
Use geophysical parameters to compute Tb for each SSM/I sensor using appropriate channels, view angles and spatial resolution
Compute biases in computed SSM/I Tb versus observed Tb.
Use as much data as possible to reduce random errors.
SSM/I – TMI Crossover
TMI
SimulatedSimulated TBs vs Observed TBs
19 H (K) 21 V (K)
37 H (K) 85 V (K)
140120
140
160 180
160
180
120
265
245
225
205
205 225 245 265
135 155 175 195
195
175
155
135
300
280
260
240
240 260 280 300TMI
TMITMI
Simulated
Simulated
Simulated
SSM/I Calibration
SSM/I Calibration Offsets
Sat 19V 19H 22V 37V 37H 85V 85H
F11 -0.8 -2.1 -1.5 -0.3 -1.5 -1.4 -2.8
F13 -1.3 -2.1 -1.9 -1.2 -2.2 -0.8 -1.3
F14 -1.2 -1.7 -1.8 -1.8 -2.0 -0.9 -1.3
F15 -0.1 -1.9 -1.2 -0.9 -1.8 -0.1 -0.8
TMISSM/I F13SSM/I F14
AMSR-ESSM/I F15
19 H 19 V 22 V 37 H 37 V 86 H 86 V
+3
+2
+1
0
-1
-2
TB Bias (Simulated Minus Observed) in Kelvins
Approximate Channel Frequency
Level 1C Calibration Differences
Level 1C Projecthttp://mrain.atmos.colostate.edu/LEVEL1C
Pixel check for nonphysical values: Checks that individual antenna temperatures values are within physical limits (currently 50 to 325K), that lat/lon values are within range (-90 to 90 and -180 to 360), and that the distance between pixels along a scan are reasonable (10 to 30km).
Scan check for nonphysical seperation: Checks that the distance between adjacent scans (nadir point) is between 20 and 30 km. Scans outside of this range are flagged and are currently eliminated (not written out).
Scan check for deviations from climatology: Compares the antenna temperatures for each channel along the scan to climatological values. If more than 30% of the pixels along a given scan are greater outside the range of the mean climatological TA +/- 3 sigma, and this represents a change of 30% or more from the prior scan, the scan is flagged and eliminated (not written out).
Level 1C developmentQuality Control Procedures
Level 1C Data Availability
Naming Convention
F11.1C.CALT1.R1.19990303.37470.HDF
T : TMI was used as reference standard 1 : Maturity level
0: Nothing has been done to calibrate the Tb to the reference sensor1: Data has been re-calibrated to match the reference instrument2: The intercalibration has been verified by at least one independent effort3: The intercalibration has been accepted by the Precipitation Science Team
R : Revision number 1 : Initial Version
R2, R3 etc.) indicate substantive changes to the data, data format, and/or file contents, which imply reprocessing of the entire data record. Minor revisions to the files, such as might occur with a change to the metadata, are indicated by a lower case letter following the revision number (i.e. 1a, 1b, etc.).
Available Rainfall Maps