goes-12 sounder sfov sounding improvement
DESCRIPTION
GOES-12 Sounder SFOV sounding improvement. Zhenglong Li, Jun Li, W. Paul Menzel, Timothy J. Schmit and other colleagues Cooperative Institute for Meteorological Satellite Studies University of Wisconsin-Madison. Gauss-Newton Iteration. Classical Gauss-Newton iteration:. Ma ’ s iteration:. - PowerPoint PPT PresentationTRANSCRIPT
GOES-12 Sounder SFOV sounding improvement
Zhenglong Li, Jun Li, W. Paul Menzel, Timothy J. Schmit and other colleagues
Cooperative Institute for Meteorological Satellite Studies
University of Wisconsin-Madison
Gauss-Newton Iteration
Classical Gauss-Newton iteration:
))]())([()( 01111
001 xxKxRREKKEKSxx iicmTT
i
Ma’s iteration:)}()]())([({)( 00
1111001 xxxxKxRREKIKEKSxx iiiicm
Ti
Ti
Jun Li’s iteration:))())([()( 0
1111001 xxKxRREKKEKSxx iicm
TTi
retrieval precision Calculation efficiency
(Convergence, stability)
Analyze the iteration equationClassical Gauss-Newton iteration:
))]())([()( 01111
001 xxKxRREKKEKSxx iicmTT
i
First guess
Covariance matrix of state variables
Weighting function
Covariance matrix of measurements
Measured Radiances
Calculated Radiances
CDRW
CDR
Possible improvements
1. First guess (regression)
2. Covariance matrix of state variables
3. Measured Radiances - Noise
4. Calculated Radiances (RTM)- Bias
First guessTemperature Moisture
1. New regression is better than old one and forecast
2. Better first guess could produce better physical retrieval results
3. This could be wrong if the covariance matrix is not consistent with the first guess
Sounder WV Weighting Functions
GOESSounder
• New covariance matrices reduce the divergence and instability greatly
• New covariance matrices improve the physical retrieval
Forecast (Eta) Error
Retrieval (3x3 FOV) Error
In New bias estimate:
(1) 101-level RTA model is used
(2) Surface emissivities are derived from regression based on realistic training
14.7 μm
12.7 μm
7.4 μm 7.4 μm
• Bias adjustment is needed
• Old Bias adjustment is no longer suitable for the new RT model
• Noise reduction is needed
12.7 μm
14.7 μm
Old Bias Diff btwn obs and cal
T (K) T (K)
Cou
nts
Radiance Obs
Optimal Inverse Algorithm
Better First Guess
Forecast
Ecosystem Classified MODIS Emiss
Best Validation (RAOB, GPS, MW).
Forecast Continue Developing
New in this year
Traditional
Temporal Continuity
Error Co-var
Background and Error Information
Spatial FilteringTemporal Filtering
Better Handle Clouds
OptimalRadiances
Optimal RTA BiasRAOB/GOES
Sounder Matchup data
Improved SFOV
Moisture Products
Temporal
Spatial
Spectral
Objective
GPS
Sample # = 3041Pure SFOV retrieval
Lamont, OK
Legacy algorithm is not optimal for SFOV sounding. New gives good SFOV TPW with reasonable precision.
Legacy retrieval
New:Phy1
Validation against microwave-retrieved TPW
New:Phy2
Legacy retrieval
New:Phy1
New:Phy2
Phy1: New physical retrieval with regression as first guess
Phy2: New Physical retrieval with forecast as first guess
Sample # = 31253x3 SFOV retrieval
Lamont, OK Simple 3x3 average helps reducing the RMSe of
retrieved TPWs
Validation against microwave-retrieved TPW
Legacy retrieval
New:Phy1
New:Phy2
Legacy retrieval
New:Phy1
New:Phy2
Analysis of RMSe and Bias hourly and seasonally(summer)
Phy1 Phy2 LegacyRMS: < <
• Phy1 has the smallest bias most of the time in the whole day
• Phy2 has negative bias at night and positive bias in the day
• Legacy has large positive bias at night and small bias in the day
Analysis of RMSe and Bias hourly and seasonally(winter)
Phy1Phy2 legacy
• Phy1 has negative bias most of the time in the whole day
• Phy2 has small bias
• Legacy has small positive bias at night and large positive bias in the day
RMS: < <
RMSe of TPWs (mm) against Raob
Reg Phy1 Fcst Phy2
ORGN+NO GPS 1.67 1.45 2.13 1.20
ORGN+GPS 1.29 1.21 2.13 1.17
3x3+NO GPS 1.57 1.31 2.15 1.23
3x3+GPS 1.29 1.22 2.15 1.33
Reg: regression
Phy1: physical retrieval (regression)
Fcst: forecast
Phy2: physical retrieval (forecast)
Validation against RAOB
• GPS helps retrieve moisture
• Simple 3 by 3 average helps improve first guess
• Phy2 has better results than Phy1
• Covariance matrix should match the first guess (better first guess doesn’t guarantee better retrieval)
Sample size = 34
Time:
2005359 00Z to 2005360 00Z
Summaries
• Single FOV sounding retrievals could be improved through the following aspects:– Forecast helps regression– GPS TPW helps regression– Covariance matrix of state variables– 3x3 simple average
• New physical retrieval with regression as first guess is good when TPW is large (summer)
• New physical retrieval with forecast as first guess is good when TPW is small (winter)
Future work
• New covariance matrices for dry and wet cases
• GPS TPW as extra “channel”
• Time continuity, Kalman Filter
Thanks