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Optimal Prediction for Hamiltonian Partial Differential Equations

โœ Scribed by Alexandre J. Chorin; Raz Kupferman; Doron Levy

Publisher
Elsevier Science
Year
2000
Tongue
English
Weight
220 KB
Volume
162
Category
Article
ISSN
0021-9991

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โœฆ Synopsis

Optimal prediction methods compensate for a lack of resolution in the numerical solution of time-dependent differential equations through the use of prior statistical information. We present a new derivation of the basic methodology, show that fieldtheoretical perturbation theory provides a useful device for dealing with quasi-linear problems, and provide a nonlinear example that illuminates the difference between a pseudo-spectral method and an optimal prediction method with Fourier kernels. Along the way, we explain the differences and similarities between optimal prediction, the representer method in data assimilation, and duality methods for finding weak solutions. We also discuss the conditions under which a simple implementation of the optimal prediction method can be expected to perform well.

๐Ÿ“œ SIMILAR VOLUMES

Invariant Manifolds for a Class of Dispe
Invariant Manifolds for a Class of Dispersive, Hamiltonian, Partial Differential Equations
โœ Claude-Alain Pillet; C.Eugene Wayne ๐Ÿ“‚ Article ๐Ÿ“… 1997 ๐Ÿ› Elsevier Science ๐ŸŒ English โš– 255 KB

We construct an invariant manifold of periodic orbits for a class of non-linear Schro dinger equations. Using standard ideas of the theory of center manifolds, we rederive the results of Soffer and Weinstein (Comm. Math. Phys. 133, 119 146 (1997); J. Differential Equations 98, 376 390 (1992)) on the