Estimating interchannel observation‐error correlations for IASI radiance data in the Met Office system

Estimating interchannel observation‐error correlations for IASI radiance data in the Met Office system

The optimal utilisation of hyper‐spectral satellite observations in numerical weather prediction is often inhibited by incorrectly assuming independent interchannel observation errors. However, in order to represent these observation‐error covariance structures, an accurate knowledge of the true var...

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Bibliographic Details
Published in:Quarterly journal of the Royal Meteorological Society Vol. 140; no. 681; pp. 1236 - 1244
Main Authors: Stewart, L. M., Dance, S. L., Nichols, N. K., Eyre, J. R., Cameron, J.
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-04-2014
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Subjects:
1D‐Var
4D‐Var
Assimilation
Channels
Correlation
Earth, ocean, space
Errors
Estimating
Exact sciences and technology
External geophysics
Meteorology
Noise
Offices
Physics of the high neutral atmosphere
Radiance
satellite observations
Weather forecast
Error estimation
Hyperspectral imagery
Space remote sensing
Four dimensional calculations
Satellite observation
Infrared atmospheric sounding interferometer
1 D-Var
satellite observations
One-dimensional calculations
Variational calculus
Numerical forecast
4D-Var
Measurement error
radiance
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Summary:The optimal utilisation of hyper‐spectral satellite observations in numerical weather prediction is often inhibited by incorrectly assuming independent interchannel observation errors. However, in order to represent these observation‐error covariance structures, an accurate knowledge of the true variances and correlations is needed. This structure is likely to vary with observation type and assimilation system. The work in this article presents the initial results for the estimation of IASI interchannel observation‐error correlations when the data are processed in the Met Office one‐dimensional (1D‐Var) and four‐dimensional (4D‐Var) variational assimilation systems. The method used to calculate the observation errors is a post‐analysis diagnostic which utilises the background and analysis departures from the two systems. The results show significant differences in the source and structure of the observation errors when processed in the two different assimilation systems, but also highlight some common features. When the observations are processed in 1D‐Var, the diagnosed error variances are approximately half the size of the error variances used in the current operational system and are very close in size to the instrument noise, suggesting that this is the main source of error. The errors contain no consistent correlations, with the exception of a handful of spectrally close channels. When the observations are processed in 4D‐Var, we again find that the observation errors are being overestimated operationally, but the overestimation is significantly larger for many channels. In contrast to 1D‐Var, the diagnosed error variances are often larger than the instrument noise in 4D‐Var. It is postulated that horizontal errors of representation, not seen in 1D‐Var, are a significant contributor to the overall error here. Finally, observation errors diagnosed from 4D‐Var are found to contain strong, consistent correlation structures for channels sensitive to water vapour and surface properties.
Bibliography:The copyright line in this article was changed on 14 May 2014 after original online publication.
This article is published with the permission of the Controller of HMSO and the Queen's Printer for Scotland.
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content type line 23
ISSN:0035-9009
1477-870X
DOI:10.1002/qj.2211