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Paper detail

A new stochastic mode reduction strategy for dissipative systems

We present a new methodology for studying non-Hamiltonian nonlinear systems based on an information theoretic extension of a renormalization group technique using a modified maximum entropy principle. We obtain a rigorous dimensionally reduced description for such systems. The neglected degrees of freedom by this reduction are replaced by a systematically deefined stochastic process under a constraint on the second moment. This then forms the basis of a computationally efficient method. Numerical computations for the generalized Kuramoto-Sivashinsky equation sup- port our method and reveal that the long-time underlying stochastic process of the fast (unresolved) modes obeys a universal distribution which does not depend on the initial conditions and which we rigorously derive by the maximum entropy principle.

preprint2013arXivOpen access
M. SchmuckM. PradasS. KalliadasisG. A. Pavliotis
physics.comp-phnlin.CD
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M. SchmuckM. PradasS. KalliadasisG. A. Pavliotis

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