arXiv:1801.03548 Abstract | arXiv Analytics

arXiv:1801.03548 [math.PR]Abstract References Reviews Resources

On strong $L^2$ convergence of numerical schemes for the stochastic 2D Navier-Stokes equations

Published 2018-01-10Version 1

We prove that some discretization schemes for the 2D Navier-Stokes equations subject to a random perturbation converge in $L^2(\Omega)$. This refines previous results which only established the convergence in probability of these numerical approximations. Using exponential moment estimates of the solution of the stochastic NS equations and convergence of a localized scheme, we can prove strong convergence of fully implicit and semi-implicit time Euler discretizations, and of a splitting scheme. The speed of the $L^2(\Omega)$-convergence depends on the diffusion coefficient and on the viscosity parameter.

Categories: math.PR

Subjects: 60H15, 60H35, 76D06, 76M35

Keywords: stochastic 2d navier-stokes equations, convergence, numerical schemes, semi-implicit time euler discretizations, 2d navier-stokes equations subject

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arXiv:1801.03548 [math.PR]Abstract References Reviews Resources

On strong $L^2$ convergence of numerical schemes for the stochastic 2D Navier-Stokes equations

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arXiv:1801.03548 [math.PR]AbstractReferencesReviewsResources

On strong $L^2$ convergence of numerical schemes for the stochastic 2D Navier-Stokes equations

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arXiv:1801.03548 [math.PR]Abstract References Reviews Resources