Spectral methods for time-dependent problems

By: Jan S. HesthavenContributor(s): Sigal Gottlieb | David GottliebSeries: Cambridge Monographs on Applied and Computational Mathematics ; 21Publication details: New York: Cambridge University Press, [c2007]Description: 273 pISBN: 9780521792110LOC classification: QC20.7.S64
Contents:
1 - From local to global approximation 2 - Trigonometric polynomial approximation 3 - Fourier spectral methods 4 - Orthogonal polynomials 5 - Polynomial expansions 6 - Polynomial approximation theory for smooth functions 7 - Polynomial spectral methods 8 - Stability of polynomial spectral methods 9 - Spectral methods for nonsmooth problems 10 - Discrete stability and time integration 11 - Computational aspects 12 - Spectral methods on general grids
Summary: Spectral methods are well-suited to solve problems modeled by time-dependent partial differential equations: they are fast, efficient and accurate and widely used by mathematicians and practitioners. This class-tested 2007 introduction, the first on the subject, is ideal for graduate courses, or self-study. The authors describe the basic theory of spectral methods, allowing the reader to understand the techniques through numerous examples as well as more rigorous developments. They provide a detailed treatment of methods based on Fourier expansions and orthogonal polynomials (including discussions of stability, boundary conditions, filtering, and the extension from the linear to the nonlinear situation). Computational solution techniques for integration in time are dealt with by Runge-Kutta type methods. Several chapters are devoted to material not previously covered in book form, including stability theory for polynomial methods, techniques for problems with discontinuous solutions, round-off errors and the formulation of spectral methods on general grids. These will be especially helpful for practitioners. --- summary provided by publisher
List(s) this item appears in: New Arrivals
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Physics Rack No 9 QC20.7.S64 (Browse shelf (Opens below)) Available 02864
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1 - From local to global approximation
2 - Trigonometric polynomial approximation
3 - Fourier spectral methods
4 - Orthogonal polynomials
5 - Polynomial expansions
6 - Polynomial approximation theory for smooth functions
7 - Polynomial spectral methods
8 - Stability of polynomial spectral methods
9 - Spectral methods for nonsmooth problems
10 - Discrete stability and time integration
11 - Computational aspects
12 - Spectral methods on general grids

Spectral methods are well-suited to solve problems modeled by time-dependent partial differential equations: they are fast, efficient and accurate and widely used by mathematicians and practitioners. This class-tested 2007 introduction, the first on the subject, is ideal for graduate courses, or self-study. The authors describe the basic theory of spectral methods, allowing the reader to understand the techniques through numerous examples as well as more rigorous developments. They provide a detailed treatment of methods based on Fourier expansions and orthogonal polynomials (including discussions of stability, boundary conditions, filtering, and the extension from the linear to the nonlinear situation). Computational solution techniques for integration in time are dealt with by Runge-Kutta type methods. Several chapters are devoted to material not previously covered in book form, including stability theory for polynomial methods, techniques for problems with discontinuous solutions, round-off errors and the formulation of spectral methods on general grids. These will be especially helpful for practitioners. --- summary provided by publisher

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