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Data-Driven Computational Methods
Parameter and Operator Estimations

$69.99 (P)

  • Date Published: August 2018
  • availability: In stock
  • format: Hardback
  • isbn: 9781108472470

$ 69.99 (P)
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About the Authors
  • Modern scientific computational methods are undergoing a transformative change; big data and statistical learning methods now have the potential to outperform the classical first-principles modeling paradigm. This book bridges this transition, connecting the theory of probability, stochastic processes, functional analysis, numerical analysis, and differential geometry. It describes two classes of computational methods to leverage data for modeling dynamical systems. The first is concerned with data fitting algorithms to estimate parameters in parametric models that are postulated on the basis of physical or dynamical laws. The second is on operator estimation, which uses the data to nonparametrically approximate the operator generated by the transition function of the underlying dynamical systems. This self-contained book is suitable for graduate studies in applied mathematics, statistics, and engineering. Carefully chosen elementary examples with supplementary MATLAB® codes and appendices covering the relevant prerequisite materials are provided, making it suitable for self-study.

    • Grants quick access to techniques, but provides a solid theoretical understanding for those who want to go further
    • Gives an overview of various topics usually scattered across disciplines
    • Background material is provided in several short appendices
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    Reviews & endorsements

    'The MATLAB code used for the examples in the book can be downloaded from the publisher’s website; the scripts are short, well commented and can be understood without difficulty (even if you are not a MATLAB expert).' Fabio Mainardi, MAA Reviews

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    Product details

    • Date Published: August 2018
    • format: Hardback
    • isbn: 9781108472470
    • length: 168 pages
    • dimensions: 253 x 178 x 13 mm
    • weight: 0.5kg
    • contains: 35 b/w illus. 7 colour illus.
    • availability: In stock
  • Table of Contents

    1. Introduction
    2. Markov chain Monte Carlo
    3. Ensemble Kalman filters
    4. Stochastic spectral methods
    5. Karhunen–Loève expansion
    6. Diffusion forecast
    Appendix A. Elementary probability theory
    Appendix B. Stochastic processes
    Appendix C. Elementary differential geometry
    References
    Index.

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    Data-Driven Computational Methods

    John Harlim

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  • Author

    John Harlim, Pennsylvania State University
    John Harlim is a Professor of Mathematics and Meteorology at the Pennsylvania State University. His research interests include data assimilation and stochastic computational methods. In 2012, he received the Frontiers in Computational Physics award from the Journal of Computational Physics for his research contributions on computational methods for modeling Earth systems. He has previously co-authored another book, Filtering Complex Turbulent Systems (Cambridge, 2012).

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