Application of PCA to IASI: An NWP Perspective. Andrew Collard, ECMWF. Acknowledgements to Tony McNally, Jean-Noel Thépaut
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1 Application of PCA to IASI: An NWP Perspective Andrew Collard, ECMWF Acknowledgements to Tony McNally, Jean-Noel Thépaut
2 Overview Introduction Why use PCA/RR? Expected performance of PCA/RR for IASI Assimilation of RR: AIRS Experience Assimilation of Normal Radiances Assimilation of Reconstructed Radiances Conclusions 2
3 Why Use PCA/RR? 3
4 Why is data compression important? Very large data volumes need to be communicated in near-real time (e.g., EUMETSAT to NWP centres) Simulation of spectra (needed for assimilation) is costly Data storage 4
5 Expected Performance of PCA/RR for IASI? 5
6 Spectral data compression with PCA * The complete AIRS spectrum can be compressed using a truncated principal component analysis (e.g. 200PCAs v 2300 rads) Leading eigenvectors (200,say) of covariance of spectra from (large) training set Mean spectrum p = V T Coefficients (y y) Original Spectrum To use PCs in assimilation requires an efficient RT model to calculate PCs directly PCs are more difficult to interpret physically than radiances N.B. This is usually performed in noise-normalised radiance space This allows data to be transported efficiently * Principal Component Analysis 6
7 Spectral data compression and de-noising The complete AIRS spectrum can be compressed using a truncated principal component analysis (e.g. 200PCAs v 2300 rads) Leading eigenvectors (200,say) of covariance of spectra from (large) training set Mean spectrum Reconstructed spectrum p T = V (y y) y = y + Vp R Coefficients Original Spectrum N.B. This is usually performed in noise-normalised radiance space Each reconstructed channel is a linear combination of all the original channels and the data is significantly de-noised. If N PCs are used all the information is contained in N reconstructed channels (theoretically) 7
8 Transformation of Instrument Noise Error in observation, ε y, is transformed by: T ε y = VV εy + R Where ε R is the reconstruction error. Observation error covariance, O R, of reconstructed radiances: In addition, the forward model term is not modified by reconstruction. ε R T T O R = VV OV V + F R 8
9 300 Channels for IASI Brightness Temperature (K) Temperature Only Temperature + Humidity Ozone Solar Cloud/Surface Wavenumber (cm -1 ) 9
10 Noise Reduction 300 Channels Observation Error (K) Wavenumber (cm -1 ) 10
11 IASI RR Error Correlations LW Window Solar 500 PCs 300 IASI Channels CO 2 O 3 H 2 O 11
12 Retrieval Performance Background All Channels Pressure (hpa) 300 Channels 300 RR Channels Temperature Error (K) 12
13 AIRS Application of PCA to IASI: An NWP Perspective Andrew Collard, ECMWF Acknowledgements to Tony McNally, Jean-Noel Thépaut
14 Experience with AIRS: Current Operational System 14
15 4D-Var Data Assimilation 4-dimensional variational data assimilation is in principle a leastsquares fit in 4 dimensions between the predicted state of the atmosphere and the observations. The adjustment to the predicted state is made at time T o, which ensures that the analysis state (4-dimensional) is a model trajectory. 15
16 Satellite data assimilated operationally at ECMWF 4xAMSU-A (NOAA-15/16/18 + AQUA) 3xAMSU-B (NOAA-16/17/18) 3 SSMI (F-13/14/15) in clear and rainy conditions 1xHIRS (NOAA-17) AIRS (AQUA) Radiances from 4 GEOS (Met-5, Met-8, GOES-10/12) Winds from 4 GEOS (Met-5/8 GOES-10/12) and MODIS/TERRA+AQUA Scat winds from QuikSCAT and ERS-2 (Atlantic) Wave height from ENVISAT RA2 and ASAR, JASON Ozone from SBUV (NOAA 16) and SCIAMACHY (ENVISAT) 29 different satellite sources Coming soon: SSMIS, radio occultation (GPS), and IASI! 16
17 AIRS Spectrum 324 Channel Subset 324 Channels (BUFR dataset) Brightness Temperature (K) Window Window CO 2 H 2 O O 3 Wavenumber (cm -1 ) CO 2 Window One AIRS FOV for every AMSU FOV (there are 9 AIRS FOVS per AMSU FOV) Up to 150 channels are assimilated (depending on cloud top height) N.B. The same channels are supplied in NRT as reconstructed radiances 17
18 Assumed Noise for AIRS Assimilation Noise or First Guess Departure (K) AIRS Instrument Noise Assumed Observational Error Clear Sky Background Departures Wavelength (μm) 18
19 Optimal vs Non-Optimal Assimilation Optimal Assimilation A = B WHB Non-Optimal Assimilation (Watts and McNally, 1988) Where W A = = BH (I T WH)B (I (HBH T O) 1 WH) T + WO W A, B and O are true values for A, B and O + A=Analysis Error Covariance B=Background Error Covariance O=Observation Error Covariance H=Jacobian T 19
20 Observation * Errors are Correlated 15μm 3μm 3μm FW Model Error Non-Linearity Error Cloud/Surface Emissivity Error Instrument Noise 15μm *Instrument plus forward model noise 20
21 AIRS Impact up to 10 hours at 7 days 61 Days 21
22 5 Day Forecast Improvements on Adding AIRS AIRS Improves FC dm 1 st March 30 th April 2005 AIRS Degrades FC 22
23 Experience with AIRS: Reconstructed Radiances 23
24 AIRS Reconstructed Radiances Data are supplied in near-real time by NOAA/NESDIS in the same format as the real radiances. The same channels are supplied, except some popping channels are missing Based on 200 PCs QC Flag supplied 24
25 First Guess Departures for AIRS are Reduced First Guess Departure Std. Dev. (K) Instrument noise is the main contributor to FG departure in the 15μm CO 2 band only Original Reconstructed 4 14 Wavelength (μm) 25
26 A look at Reconstructed Radiances Errors 15μm 14.5μm 14μm 13μm 15μm 14.5μm 14μm 13μm Original Radiances Instrument noise is dominant and diagonal. Correlated noise is from background error 15μm 14.5μm 14μm 13μm Reconstructed Radiances Instrument noise is reduced (std. dev. Is approximately halved) but has become correlated. 15μm 14.5μm 14μm 13μm Covariances of background departures for clear observations in 15μm CO 2 band Covariance (K 2 ) 26
27 Improvements in Cloud Detection First Guess Departure (K) ECMWF Scheme: Ranks Channels Height Applies low-pass filter Tests for non-zero gradient Original Last Clear = 75 First Guess Departure (K) Reconstructed Radiances Last Clear = 70 Height-ranked Channel Index < 2% of Channels are flagged differently for RR vs Normal radiances Height-ranked Channel Index 27
28 Improvements to Antarctic Stratosphere Stratospheric Oscillation in comparison to Antarctic radiosondes is greatly reduced on moving to reconstructed radiances 28
29 Forecast Impact of Reconstructed Radiances Essentially Neutral 29
30 Assimilating Reconstructed Radiances Linear Theory 30
31 So why not use the RR data more aggressively? More aggressive errors have been tried: Reduction of existing diagonal errors Bottom up construction of full covariances Hollingsworth-Lönnberg approach Results have been neutral or negative with respect to: Fit to other observations Performance of short/medium range forecasts 31
32 Next steps Other error sources need to be investigated: Bias Spatially correlated error Representivity error???? 32
33 Conclusions The reconstructed radiances method has the potential to be particularly useful for the efficient representation of the information in IASI and AIRS. The noise smoothing properties of the reconstructed radiances method shows some positive benefits on assimilation into a high-resolution NWP system. However, the assimilation of reconstructed radiances has yet to yield positive impact on forecast skill (relative to normal radiances). Work on the construction of a suitable (non-optimal) error covariance continues. 33
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