An Introduction to Computational Stochastic PDEs: 50 (Cambridge Texts in Applied Mathematics, Series Number 50)

Gabriel J. Lord, Catherine E. Powell, Tony Shardlow
Cambridge University Press, 8/11/2014
EAN 9780521728522, ISBN10: 0521728525

Paperback, 520 pages, 24.6 x 17.5 x 2.3 cm
Language: English
Originally published in English

This book gives a comprehensive introduction to numerical methods and analysis of stochastic processes, random fields and stochastic differential equations, and offers graduate students and researchers powerful tools for understanding uncertainty quantification for risk analysis. Coverage includes traditional stochastic ODEs with white noise forcing, strong and weak approximation, and the multi-level Monte Carlo method. Later chapters apply the theory of random fields to the numerical solution of elliptic PDEs with correlated random data, discuss the Monte Carlo method, and introduce stochastic Galerkin finite-element methods. Finally, stochastic parabolic PDEs are developed. Assuming little previous exposure to probability and statistics, theory is developed in tandem with state-of-the-art computational methods through worked examples, exercises, theorems and proofs. The set of MATLAB® codes included (and downloadable) allows readers to perform computations themselves and solve the test problems discussed. Practical examples are drawn from finance, mathematical biology, neuroscience, fluid flow modelling and materials science.

Part I. Deterministic Differential Equations
1. Linear analysis
2. Galerkin approximation and finite elements
3. Time-dependent differential equations
Part II. Stochastic Processes and Random Fields
4. Probability theory
5. Stochastic processes
6. Stationary Gaussian processes
7. Random fields
Part III. Stochastic Differential Equations
8. Stochastic ordinary differential equations (SODEs)
9. Elliptic PDEs with random data
10. Semilinear stochastic PDEs.