TRMM TMI Rainfall Retrieval Algorithm
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Transcript of TRMM TMI Rainfall Retrieval Algorithm
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TRMM TMI Rainfall Retrieval Algorithm
C. Kummerow Colorado State University
2nd IPWG MeetingMonterey, CA. 25 Oct. 2004
Towards a parametric algorithm for GPM
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GPROF changes TMI-V5 : V6A net reduction of approx. 5%.
Databases- Created new databases with updated model runs from
(Tao’s group; Greg Tripoli and Grant Petty)- Changed all databases to ascii for distribution- Added bright band calculations to melting layers
Background Tbs- Changed from selecting the clearest Tb for the background Tb to calculating the clear air Tb by removing the wind speed and liquid water components
Freezing level- Interpolating across adjacent pixels
Convective Fraction- Better account for the texture of the convection
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AMSR-E (75.2 mm/month)
TMI(78.1 mm/month)
August 2003
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Comparison with 16 month of GV data(PR and Combined have changed since)
Courtesy of David Wolff
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PR/TMI Global Bias Map
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Rainfall Bias RemovalBased on Column Water Vapor
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Need for Version 7
Discrepancies (10-15%) remain between PR and TMI at spatial and
temporal scales of interest to climate. These need to be understood
and resolved.
Increasing number of microwave radiometers require more parametric
algorithms. We now have: TMI AMSR-E (AMSR) SSM/I (SSMIS) WindSat
Need to add more comprehensive error model. Currently know random
and sampling errors. Know very little about systematic biases. Cloud models used in the retrievals Regional/temporal changes in cloud properties
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With initial assumptions
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With updated assumptions
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Compute Z/Tb
Measure Z/Tb
Compute Rainfall
Measure Rsfc
Compare
Compare
Once radiances and rainfall can be matched, data cube turns into ideal algorithm test and verification site that is not limited by infrequent over-passes of the “core” satellite.
Data Cube
Validation of core satellite algorithm ?
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Important aspects of Version 7
V7 Database is essentially PR and is modified only if emission signal of TMI indicates a change is needed.
Database is more representative of observed rainfall profiles but can only be constructed for regimes (defined perhaps by SST or CWV) observed by PR. Code for SSMI, AMSR will retain CRM for colder surfaces until GPM is available.
A new validation paradigm will be needed for these databases
V7 eliminates all screening routines (they tend to be sensor dependent and make error modeling impossible. Instead:
Confidence that correct database is being used Probability of rain Mean conditional rainfall Uncertainty in rainfall (inversion uncertainty) Space/time error model
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Rain Rate Probability of Rain
Sigma Rain GPROF V6
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General issues with new algorithms
A number of different algorithms exist for constructing the a-priori databases for future parametric algorithms. But …
They currently exist only for tropical oceans. Have no way of judging if one method is better than another
Some attention has been paid to land and extratropics. But … Coordination is poor Methologies are different No work on how to transition from one method to another
As the number of microwave sensors increases, sampling becomes much better. But….
Standards don’t exist (even simple things like version numbers) Quality assurance becomes more difficult Coordinated Version management is needed
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Rainfall Detection Errors
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Rainfall Detection ErrorsFebruary 1, 2000
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PR/TMI Bias vs. Column Water Vapor