Zhuan Cheng scite author profile

This work is about low dimensional reduction for a slow-fast data assimilation system with non-Gaussian α−stable Lévy noise via stochastic averaging. When the observations are only available for slow components, we show that the averaged, low dimensional filter approximates the original filter, by examining the corresponding Zakai stochastic partial differential equations. Furthermore, we demonstrate that the low dimensional slow system approximates the slow dynamics of the original system, by examining parameter estimation and most probable paths.

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Dynamical inference for transitions in stochastic systems withα-stable Lévy noise

Gao¹,

Duan²,

Kan³

et al. 2016

J. Phys. A: Math. Theor.

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A goal of data assimilation is to infer stochastic dynamical behaviors with available observations. We consider transition phenomena between metastable states for a stochastic system with (non-Gaussian) α−stable Lévy noise. With either discrete time or continuous time observations, we infer such transitions by computing the corresponding nonlocal Zakai equation (and its discrete time counterpart) and examining the most probable orbits for the state system. Examples are presented to demonstrate this approach.Short Title: Transitions in Non-Gaussian Stochastic Systems

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Zhuan Cheng

Most probable dynamics of some nonlinear systems under noisy fluctuations

Data assimilation and parameter estimation for a multiscale stochastic system withα-stable Lévy noise

Dynamical inference for transitions in stochastic systems withα-stable Lévy noise

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