TY - GEN KW - NWP KW - lecture notes AU - F. Bouttier AU - P. Courtier AB -

These training course lecture notes are an advanced and comprehensive presentation of most data assimilation methods that are considered useful in applied meteorology and oceanography today. Some are considered old-fashioned but they are still valuable for low cost applications. Others have never been implemented yet in realistic applications, but they are regarded as the future of data assimilation. A mathematical approach has been chosen, which allows a compact and rigorous presentation of the algorithms, though only some basic mathematical competence is required from the reader.

This document has been put together with the help of previous lecture notes, which are now superseded:

Traditionally the lecture notes have been referring a lot to the assimilation and forecast system at ECMWF, rather than to more general algorithms. Sometimes ideas that had not even been tested found their way into the training course lecture notes. New notes had to be written every couple of years, with inconsistent notation.

In this new presentation it has been decided to stick to a description of the main assimilation methods used worldwide, without any reference to ECMWF specific features, and clear comparisons between the different algorithms. This should make it easier to adapt the methods to problems outside the global weather forecasting framework of ECMWF, e.g. ocean data assimilation, land surface analysis or inversion of remote-sensing data. It is hoped that the reader will manage to see the physical nature of the algorithms beyond the mathematical equations.

A first edition of these lecture notes was released in March 1998. In this second edition, some figures were added, and a few errors were corrected.

Thanks are due to J. Pailleux, J. Eyre, P. Undén and A. Hollingsworth for their contribution to the previous lecture notes, to A. Lorenc, R. Daley, M. Ghil and O. Talagrand for teaching the various forms of the statistical interpolation technique to the meteorological world, to D. Richardson for proof-reading the document, and to the attendees of training course who kindly provided constructive comments.

 

Contents:
  1. Basic concepts of data assimilation
  2. The state vector, control space and observations
  3. The modelling of errors
  4. Statistical interpolation with least-squares estimation
  5. A simple scalar illustration of least-squares estimation
  6. Models of error covariances
  7. Optimal interpolation (OI) analysis
  8. Three-dimensional variational analysis (3D-Var)
  9. 1D-Var and other variational analysis systems
  10. Four-dimensional variational assimilation (4D-Var)
  11. Estimating the quality of the analyses Implementation techniques
  12. Dual formulation of 3D/4D-Var (PSAS)
  13. The extended Kalman filter (EKF)
  14. Conclusion
  15. Appendix A. A primer on linear algebra
  16. Appendix B. Practical adjoint coding
  17. Appendix C. Exercises
  18. Appendix D. Main symbols
  19. References

 

 

BT - Meteorological Training Course Lecture Series C1 - Learning DA - 2002 LA - eng N2 -

These training course lecture notes are an advanced and comprehensive presentation of most data assimilation methods that are considered useful in applied meteorology and oceanography today. Some are considered old-fashioned but they are still valuable for low cost applications. Others have never been implemented yet in realistic applications, but they are regarded as the future of data assimilation. A mathematical approach has been chosen, which allows a compact and rigorous presentation of the algorithms, though only some basic mathematical competence is required from the reader.

This document has been put together with the help of previous lecture notes, which are now superseded:

Traditionally the lecture notes have been referring a lot to the assimilation and forecast system at ECMWF, rather than to more general algorithms. Sometimes ideas that had not even been tested found their way into the training course lecture notes. New notes had to be written every couple of years, with inconsistent notation.

In this new presentation it has been decided to stick to a description of the main assimilation methods used worldwide, without any reference to ECMWF specific features, and clear comparisons between the different algorithms. This should make it easier to adapt the methods to problems outside the global weather forecasting framework of ECMWF, e.g. ocean data assimilation, land surface analysis or inversion of remote-sensing data. It is hoped that the reader will manage to see the physical nature of the algorithms beyond the mathematical equations.

A first edition of these lecture notes was released in March 1998. In this second edition, some figures were added, and a few errors were corrected.

Thanks are due to J. Pailleux, J. Eyre, P. Undén and A. Hollingsworth for their contribution to the previous lecture notes, to A. Lorenc, R. Daley, M. Ghil and O. Talagrand for teaching the various forms of the statistical interpolation technique to the meteorological world, to D. Richardson for proof-reading the document, and to the attendees of training course who kindly provided constructive comments.

 

Contents:
  1. Basic concepts of data assimilation
  2. The state vector, control space and observations
  3. The modelling of errors
  4. Statistical interpolation with least-squares estimation
  5. A simple scalar illustration of least-squares estimation
  6. Models of error covariances
  7. Optimal interpolation (OI) analysis
  8. Three-dimensional variational analysis (3D-Var)
  9. 1D-Var and other variational analysis systems
  10. Four-dimensional variational assimilation (4D-Var)
  11. Estimating the quality of the analyses Implementation techniques
  12. Dual formulation of 3D/4D-Var (PSAS)
  13. The extended Kalman filter (EKF)
  14. Conclusion
  15. Appendix A. A primer on linear algebra
  16. Appendix B. Practical adjoint coding
  17. Appendix C. Exercises
  18. Appendix D. Main symbols
  19. References

 

 

PB - ECMWF PY - 2002 T2 - Meteorological Training Course Lecture Series TI - Data Assimilation Concepts and Methods ER -