A NEW APPROXIMATE INERTIAL MANIFOLD AND ASSOCIATED ALGORITHM1

Kaitai Li; Zhongfeng Xu; Xiaozhong Yang

doi:10.1016/S0252-9602(06)60021-0

A NEW APPROXIMATE INERTIAL MANIFOLD AND ASSOCIATED ALGORITHM¹

Kaitai Li
, Zhongfeng Xu
, Xiaozhong Yang

School of Physics

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

In this article the authors propose a new approximate inertial manifold(AIM) to the Navier-Stokes equations. The solutions are in the neighborhoods of this AIM with thickness δ = o(h^2k+1-E). The article aims to investigate a two grids finite element approximation based on it and give error estimates of the approximate solution ∥ | (u - _u p - _p) ∥ | ≤ C (^h + ^h where (h, h*) and (k, m) are coarse and fine meshes and degree of finite element subspaces, respectively. These results are much better than Standard Galerkin(SG) and nonlinear Galerkin (NG) methods. For example, for 2D NS eqs and linear element, let u_h, u^h, u* be the SG, NG and their approximate solutions respectively, then ∥ _{u - u} _∥ ≤ C h, ∥ ^{u - u} _∥ ≤ C ^h ∥ ^{u - u} _∥ ≤ C ^h and h* ≈ h² for NG, h* ≈ h^3/2 for theirs.

Original language	English
Pages (from-to)	1-16
Number of pages	16
Journal	Acta Mathematica Scientia
Volume	26
Issue number	1
DOIs	https://doi.org/10.1016/S0252-9602(06)60021-0
State	Published - 2006

Keywords

Navier-Stokes equations
Two level finite element
new approximation inertial manifold

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10.1016/S0252-9602(06)60021-0

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title = "A NEW APPROXIMATE INERTIAL MANIFOLD AND ASSOCIATED ALGORITHM1",

abstract = "In this article the authors propose a new approximate inertial manifold(AIM) to the Navier-Stokes equations. The solutions are in the neighborhoods of this AIM with thickness δ = o(h2k+1-E). The article aims to investigate a two grids finite element approximation based on it and give error estimates of the approximate solution ∥ | (u - u p - p) ∥ | ≤ C (h + h where (h, h*) and (k, m) are coarse and fine meshes and degree of finite element subspaces, respectively. These results are much better than Standard Galerkin(SG) and nonlinear Galerkin (NG) methods. For example, for 2D NS eqs and linear element, let uh, uh, u* be the SG, NG and their approximate solutions respectively, then ∥ u - u ∥ ≤ C h, ∥ u - u ∥ ≤ C h ∥ u - u ∥ ≤ C h and h* ≈ h2 for NG, h* ≈ h3/2 for theirs.",

keywords = "Navier-Stokes equations, Two level finite element, new approximation inertial manifold",

author = "Kaitai Li and Zhongfeng Xu and Xiaozhong Yang",

year = "2006",

doi = "10.1016/S0252-9602(06)60021-0",

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pages = "1--16",

journal = "Acta Mathematica Scientia",

issn = "0252-9602",

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AU - Li, Kaitai

AU - Xu, Zhongfeng

AU - Yang, Xiaozhong

PY - 2006

Y1 - 2006

N2 - In this article the authors propose a new approximate inertial manifold(AIM) to the Navier-Stokes equations. The solutions are in the neighborhoods of this AIM with thickness δ = o(h2k+1-E). The article aims to investigate a two grids finite element approximation based on it and give error estimates of the approximate solution ∥ | (u - u p - p) ∥ | ≤ C (h + h where (h, h*) and (k, m) are coarse and fine meshes and degree of finite element subspaces, respectively. These results are much better than Standard Galerkin(SG) and nonlinear Galerkin (NG) methods. For example, for 2D NS eqs and linear element, let uh, uh, u* be the SG, NG and their approximate solutions respectively, then ∥ u - u ∥ ≤ C h, ∥ u - u ∥ ≤ C h ∥ u - u ∥ ≤ C h and h* ≈ h2 for NG, h* ≈ h3/2 for theirs.

AB - In this article the authors propose a new approximate inertial manifold(AIM) to the Navier-Stokes equations. The solutions are in the neighborhoods of this AIM with thickness δ = o(h2k+1-E). The article aims to investigate a two grids finite element approximation based on it and give error estimates of the approximate solution ∥ | (u - u p - p) ∥ | ≤ C (h + h where (h, h*) and (k, m) are coarse and fine meshes and degree of finite element subspaces, respectively. These results are much better than Standard Galerkin(SG) and nonlinear Galerkin (NG) methods. For example, for 2D NS eqs and linear element, let uh, uh, u* be the SG, NG and their approximate solutions respectively, then ∥ u - u ∥ ≤ C h, ∥ u - u ∥ ≤ C h ∥ u - u ∥ ≤ C h and h* ≈ h2 for NG, h* ≈ h3/2 for theirs.

KW - Navier-Stokes equations

KW - Two level finite element

KW - new approximation inertial manifold

UR - https://www.scopus.com/pages/publications/33748907021

U2 - 10.1016/S0252-9602(06)60021-0

DO - 10.1016/S0252-9602(06)60021-0

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IS - 1

ER -

A NEW APPROXIMATE INERTIAL MANIFOLD AND ASSOCIATED ALGORITHM¹

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