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Probabilistic Forecasting and Bayesian Data Assimilation

  • Date Published: May 2015
  • availability: Available
  • format: Paperback
  • isbn: 9781107663916

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About the Authors
  • In this book the authors describe the principles and methods behind probabilistic forecasting and Bayesian data assimilation. Instead of focusing on particular application areas, the authors adopt a general dynamical systems approach, with a profusion of low-dimensional, discrete-time numerical examples designed to build intuition about the subject. Part I explains the mathematical framework of ensemble-based probabilistic forecasting and uncertainty quantification. Part II is devoted to Bayesian filtering algorithms, from classical data assimilation algorithms such as the Kalman filter, variational techniques, and sequential Monte Carlo methods, through to more recent developments such as the ensemble Kalman filter and ensemble transform filters. The McKean approach to sequential filtering in combination with coupling of measures serves as a unifying mathematical framework throughout Part II. Assuming only some basic familiarity with probability, this book is an ideal introduction for graduate students in applied mathematics, computer science, engineering, geoscience and other emerging application areas.

    • Opens up the subject for non-mathematicians working in any field where Bayesian data assimilation is applied
    • Provides a novel unifying framework for ensemble-based data assimilation techniques
    • MATLAB code is available to download from www.cambridge.org/9781107069398
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    Reviews & endorsements

    '… an ideal platform for capstone experiences tailored to students with interests spanning applied mathematics and statistics.' D. V. Feldman, Choice

    'Looking at it again from the mathematician's viewpoint, this is a beautiful articulation of the deep fact that methods which were originally developed to solve specific problems, and to get around specific issues, can be reformulated as special instances of a general theory. This book by Reich and Cotter thus makes an important and potentially very influential contribution to the literature. It is arguably most exciting in that the perspective promises to produce more and better algorithms. What more could one ask of a mathematical theory?' Christopher Jones, SIAM Review

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    Product details

    • Date Published: May 2015
    • format: Paperback
    • isbn: 9781107663916
    • length: 308 pages
    • dimensions: 244 x 170 x 16 mm
    • weight: 0.61kg
    • contains: 70 b/w illus. 7 colour illus. 70 exercises
    • availability: Available
  • Table of Contents

    Preface
    1. Prologue: how to produce forecasts
    Part I. Quantifying Uncertainty:
    2. Introduction to probability
    3. Computational statistics
    4. Stochastic processes
    5. Bayesian inference
    Part II. Bayesian Data Assimilation:
    6. Basic data assimilation algorithms
    7. McKean approach to data assimilation
    8. Data assimilation for spatio-temporal processes
    9. Dealing with imperfect models
    References
    Index.

  • Resources for

    Probabilistic Forecasting and Bayesian Data Assimilation

    Sebastian Reich, Colin Cotter

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  • Authors

    Sebastian Reich, Universität Potsdam, Germany and University of Reading
    Sebastian Reich is Professor of Numerical Analysis at the University of Potsdam (full time) and the University of Reading (part time). He also holds an honorary visiting professorship at Imperial College London. Reich is the author of over 100 journal articles and the co-author of Simulating Hamiltonian Dynamics (Cambridge, 2005), which has received more than 600 citations. His research areas cover numerical analysis and scientific computing with applications to classical mechanics, molecular dynamics, geophysical fluid dynamics, and data assimilation. In 2003 he received the Germund Dahlquist Prize from the Society for Industrial and Applied Mathematics (SIAM) for his work on geometric integration methods.

    Colin Cotter, Imperial College London
    Colin Cotter has been a Senior Lecturer in the Department of Mathematics at Imperial College London since 2013. He has published more than 40 journal articles and three book chapters, on the design, analysis and implementation of numerical methods for numerical weather prediction, ocean forecasting and climate modelling; data assimilation; image registration; geometric mechanics and other topics in scientific computing and numerical analysis. His publications have been cited approximately 500 times. He is a key member of the Met Office/STFC/NERC-funded multi-institutional 'Gung-Ho' project which will design a next generation dynamical core for the UK weather prediction and climate forecasting system. He is also a co-investigator for the EPSRC Mathematics of Planet Earth Centre for Doctoral Training, and for the EPSRC Platform for Research in Simulation Methods (PRISM).

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