Your search keyword '"Two-grid method"' showing total 192 results

151. A novel two-grid method for a fracture model.

Author

Zuo, Liyun and Du, Guangzhi

Subjects

*FLUID flow

Abstract

In this article, a novel two-grid method is proposed and investigated for a fracture model, in which the fluid flow in both the fracture and the surrounding medium is motivated by the Darcy's law. In the proposed scheme, a coarse grid coupled problem is first solved and then two fine grid serial subproblems are considered. Compared with the theoretical result that convergence rate O (h + H 3 2 ) for the pressure in H 1 semi-norm for the classical two-grid decoupled method in Chen and Rui (2018), our method could arrive at the convergence order O (h + H 2) for the pressure in H 1 semi-norm. Finally, a numerical test is reported to support our theoretical findings. [ABSTRACT FROM AUTHOR]

Published

2022

152. AN INGHAM TYPE PROOF FOR A TWO-GRID OBSERVABILITY THEOREM.

Author

Loreti, Paola and Mehrenberger, Michel

Subjects

*WAVE equation, *PARTIAL differential equations, *THEORY of wave motion, *ALGORITHMS, *MATHEMATICS

Abstract

Here, we prove the uniform observability of a two-grid method for the semi-discretization of the 1D-wave equation for a time T > 2v2; this time, if the observation is made in (-T/2, T/2), is optimal and this result improves an earlier work of Negreanu and Zuazua [C. R. Acad. Sci. Paris Séer. I 338 (2004) 413-418]. Our proof follows an Ingham type approach. [ABSTRACT FROM AUTHOR]

Published

2008

153. Two-grid partition of unity method for second order elliptic problems.

Author

Cheng Wang, Zi-ping Huang, and Li-kang Li

Subjects

*GRID computing, *NUMERICAL analysis, *ELLIPTIC functions, *COMPUTER systems, *PARTITIONS (Mathematics)

Abstract

A two-grid partition of unity method for second order elliptic problems is proposed and analyzed. The standard two-grid method is a local and parallel method usually leading to a discontinuous solution in the entire computational domain. Partition of unity method is employed to glue all the local solutions together to get the global continuous one, which is optimal in H 1-norm. Furthermore, it is shown that the L 2 error can be improved by using the coarse grid correction. Numerical experiments are reported to support the theoretical results. [ABSTRACT FROM AUTHOR]

Published

2008

154. An efficient algorithm for the Schrödinger–Poisson eigenvalue problem

Author

Chang, S.-L., Chien, C.-S., and Jeng, B.-W.

Subjects

*ALGORITHMS, *EIGENVALUES, *LINEAR systems, *OPERATOR theory

Abstract

Abstract: We present a new implementation of the two-grid method for computing extremum eigenpairs of self-adjoint partial differential operators with periodic boundary conditions. A novel two-grid centered difference method is proposed for the numerical solutions of the nonlinear Schrödinger–Poisson (SP) eigenvalue problem.We solve the Poisson equation to obtain the nonlinear potential for the nonlinear Schrödinger eigenvalue problem, and use the block Lanczos method to compute the first k eigenpairs of the Schrödinger eigenvalue problem until they converge on the coarse grid. Then we perform a few conjugate gradient iterations to solve each symmetric positive definite linear system for the approximate eigenvector on the fine grid. The Rayleigh quotient iteration is exploited to improve the accuracy of the eigenpairs on the fine grid. Our numerical results show how the first few eigenpairs of the Schrödinger eigenvalue problem are affected by the dopant in the Schrödinger–Poisson (SP) system. Moreover, the convergence rate of eigenvalue computations on the fine grid is . [Copyright &y& Elsevier]

Published

2007

155. Some new discretization and adaptation and multigrid methods for 2-D 3-T diffusion equations

Author

Jiang, Jun, Huang, Yunqing, Shu, Shi, and Zeng, Shi

Subjects

*NUMERICAL analysis, *ALGORITHMS, *EINSTEIN-Podolsky-Rosen experiment, *RENEWABLE energy sources

Abstract

Abstract: In the simulation of laser-driven implosion of a fuel capsule in inertial confinement fusion experiments, a system of two-dimensional diffusion equations coupled with electron, iron and photon temperature are widely used to approximately describe the process of energy across multiple materials and the exchange of energy among electrons, irons and photons. The numerical solution of such equations is always challenging because of its strong nonlinear phenomena and strong discontinuous interfaces. In this article, we design a symmetric finite volume method, develop the corresponding preconditioning technique, and propose a mesh adaptation algorithm based on Hessian matrix and a two-grid method. Using these new methods, we demonstrate that the energy conservation error and computation efficiency of the integrated algorithm are much better than classical method. [Copyright &y& Elsevier]

Published

2007

156. Two-grid nonconforming finite element method for second order elliptic problems

Author

Wang, Cheng, Huang, Ziping, and Li, Likang

Subjects

*FINITE element method, *NUMERICAL analysis, *SYSTEMS theory

Abstract

Abstract: In this paper, we present and analyze two-grid P 1 nonconforming finite element method for second order elliptic problems. The two-grid method involves solving one small origin problem on coarse grid with grid size H, and some correction problems on local fined grids with grid size h. If h =O(H 2) is chosen, we show that the convergence rate of this two-grid method is optimal in broken H 1-norm. Numerical results conforming the theory are also provided. [Copyright &y& Elsevier]

Published

2006

157. LOCAL AND PARALLEL FINITE ELEMENT ALGORITHMS FOR THE NAVIER-STOKES PROBLEM.

Author

Yinnian He, Jinchao Xu, and Aihui Zhou

Subjects

*NAVIER-Stokes equations, *FINITE element method, *PARALLEL algorithms, *GRIDS (Cartography), *PARTIAL differential equations

Abstract

Based on two-grid discretizations, in this paper, some new local and parallel finite element algorithms are proposed and analyzed for the stationary incompressible Navier-Stokes problem. These algorithms are motivated by the observation that for a solution to the Navier-Stokes problem, low frequency components can be approximated well by a relatively coarse grid and high frequency components can be computed on a fine grid by some local and parallel procedure. One major technical tool for the analysis is some local a priori error estimates that are also obtained in this paper for the finite element solutions on general shape-regular grids. [ABSTRACT FROM AUTHOR]

Published

2006

158. Tangent space correction method for the Galerkin approximation based on two-grid finite element

Author

Hou, Yanren and Li, Kaitai

Subjects

*PARABOLIC differential equations, *FINITE element method, *GALERKIN methods, *NUMERICAL analysis

Abstract

Abstract: A novel fully discrete two-grid finite element method for certain semi-linear parabolic equations is presented in this paper. The new scheme is based on two different finite element subspaces defined respectively on one coarse grid with grid size H and one fine grid with grid size h ≪ H. Nonlinearity is treated in the coarse grid subspace by solving the standard Galerkin equation, while in the fine grid subspace, only a linear equation has to be solved. Differing from the usual two-grid method, the splitting of the coarse grid subspace and its related fine grid incremental subspace is based on a new projection, in which sense the incremental subspace is closely identified with the tangent space of certain operator on each time step. With linear finite element discretization, the stability and error estimate results for such new scheme are derived. The results show that the difference between this new approximation and the fine grid standard Galerkin approximation in H 1(Ω) norm is of the order , where d =1,2,3 is the space dimension. [Copyright &y& Elsevier]

Published

2006

159. Two-grid method for characteristics finite-element solution of 2d nonlinear convection-dominated diffusion problem.

Author

Qin, Xin-qiang, Ma, Yi-chen, and Zhang, Yin

Subjects

*NUMERICAL analysis, *FINITE element method, *BURGERS' equation, *NONLINEAR theories, *ITERATIVE methods (Mathematics), *STOCHASTIC convergence, *OSCILLATION theory of differential equations

Abstract

For two-dimension nonlinear convection diffusion equation, a two-grid method of characteristics finite-element solution was constructed. In this method the nonlinear iterations is only to execute on the coarse grid and the fine-grid solution can be obtained in a single linear step. For the nonlinear convection-dominated diffusion equation, this method can not only stabilize the numerical oscillation but also accelerate the convergence and improve the computational efficiency. The error analysis demonstrates if the mesh sizes between coarse-grid and fine-grid satisfy the certain relationship, the two-grid solution and the characteristics finite-element solution have the same order of accuracy. The numerical example confirms that the two-grid method is more efficient than that of characteristics finite-element method. [ABSTRACT FROM AUTHOR]

Published

2005

160. Two-grid methods for banded linear systems from DCT III algebra.

Author

Chan, R. H., Serra-Capizzano, S., and Tablino-Possio, C.

Subjects

*GRIDS (Cartography), *COORDINATES, *GEOGRAPHICAL location codes, *LINEAR systems, *MULTIGRID methods (Numerical analysis), *NUMERICAL analysis

Abstract

We describe a two-grid and a multigrid method for linear systems whose coefficient matrices are point or block matrices from the cosine algebra generated by a polynomial. We show that the convergence rate of the two-grid method is constant independent of the size of the given matrix. Numerical examples from differential and integral equations are given to illustrate the convergence of both the two-grid and the multigrid method. Copyright © 2004 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2005

161. A TWO-GRID METHOD FOR THE STEADY PENALIZED NAVIER-STOKES EQUATIONS.

Author

Chun-feng Ren and Yi-chen Ma

Subjects

*NAVIER-Stokes equations, *ERROR analysis in mathematics, *NUMERICAL analysis, *FINITE element method, *PARTIAL differential equations

Abstract

A two-grid method for the steady penalized incompressible Navier-Stokes equations is presented. Convergence results are proved. If h = O(H3-8) and e = O(H5-2s) (s = 0 (n = 2); s = ½ (n = 3)) are chosen, the convergence order of this two-grid method is the same as that of the usual finite element method. Numerical results show that this method is efficient and can save a lot of computation time. [ABSTRACT FROM AUTHOR]

Published

2004

162. A two-grid technique for the penalty method of the steady navier-stokes equations.

Author

Ren, Chun-Feng and Ma, Yi-Chen

Abstract

A two-grid technique for solving the steady incompressible Navier-Stokes equations in a penalty method was presented and the convergence of numerical solutions was analyzed. If a coarse size H and a fine size h satisfy H=O( A 3- *)(s=0(h=2); s=1/2 ( n=3) .where n is a space dimension), this method has the same convergence accuracy as the usual finite element method. But the two-grid method can save a lot of computation time for its brief calculation. Moreover, a numerical test was couducted in order to verify the correctness of above theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2003

163. Convergence of Finite Element Approximations and Multilevel Linearization for Ginzburg–Landau Model of d-Wave Superconductors.

Author

Huang, Yunqing and Xue, Weimin

Abstract

In this paper, we consider the finite element approximations of a recently proposed Ginzburg–Landau-type model for d-wave superconductors. In contrast to the conventional Ginzburg–Landau model the scalar complex valued order-parameter is replaced by a multicomponent complex order-parameter and the free energy is modified according to the d-wave paring symmetry. Convergence and optimal error estimates and some superconvergent estimates for the derivatives are derived. Furthermore, we propose a multilevel linearization procedure to solve the nonlinear systems. It is proved that the optimal error estimates and superconvergence for the derivatives are preserved by the multilevel linearization algorithm. [ABSTRACT FROM AUTHOR]

Published

2002

164. Two-grid error estimates for the stream function form of Navier-Stokes equations.

Author

Chun-feng Ren and Yi-chen Ma

Subjects

*NAVIER-Stokes equations, *FINITE element method, *ALGORITHMS, *REYNOLDS number, *RATIO & proportion, *EQUATIONS, *DENSITY

Abstract

The two-grid finite element approximation to the stream function form of the stationary Navier-Stokes equations was analyzed. The algorithms involve solving one small, nonlinear coarse mesh system, one linear problem on the fine mesh system, and a linear correct problem on the coarse mesh. The algorithms with the correct problem and without the correct problem were discussed. The algorithms produce an approximate solution with the optimal, asymptotic accuracy for any fixed Reynolds number. [ABSTRACT FROM AUTHOR]

Published

2002

165. Local and Parallel Finite Element Algorithms Based on Two-Grid Discretizations for Nonlinear Problems.

Author

Xu, Jinchao and Zhou, Aihui

Abstract

In this paper, some local and parallel discretizations and adaptive finite element algorithms are proposed and analyzed for nonlinear elliptic boundary value problems in both two and three dimensions. The main technique is to use a standard finite element discretization on a coarse grid to approximate low frequencies and then to apply some linearized discretization on a fine grid to correct the resulted residual (which contains mostly high frequencies) by some local/parallel procedures. The theoretical tools for analyzing these methods are some local a priori and a posteriori error estimates for finite element solutions on general shape-regular grids that are also obtained in this paper. [ABSTRACT FROM AUTHOR]

Published

2001

166. L p Error Estimates of Two-Grid Method for Miscible Displacement Problem

Author

Chen, Yanping, Zeng, Jiaoyan, and Zhou, Jie

Published

2016

167. The nonlinear Landweber method applied to an inverse scattering problem for sound-soft obstacles in 3D

Author

Kleefeld, Andreas and Lin, Tzu-Chu

Subjects

*INVERSE scattering transform, *INTEGRAL equations, *HELMHOLTZ equation, *NONLINEAR theories, *LINEAR systems, *IMAGE reconstruction, *NUMERICAL solutions to equations, *WAVES (Physics)

Abstract

Abstract: The inverse scattering problem for sound-soft obstacles is considered for both smooth and piecewise smooth surfaces in 3D. The nonlinear and ill-posed integral equation of the first kind is solved by the nonlinear Landweber method. It is an iterative regularization scheme to obtain approximations for the unknown boundary of the obstacle. It is stable with respect to noise and essentially no extra work is required to incorporate several incident waves. So far, it has only been applied to the two dimensional case. Two different integral equations are presented to obtain far-field data. Furthermore, the domain derivative and its adjoint are characterized. The integral equations of the second kind are approximated by a boundary element collocation method. The two-grid method is used to solve the large and dense linear systems. Numerical examples are illustrated to show that both smooth and piecewise smooth obstacles can be reconstructed with this method, where the latter case has not yet been reported. [Copyright &y& Elsevier]

Published

2011

168. Local Refinement Techniques for Elliptic Problems on Cell-centered Grids; II. Optimal Order Two-grid Iterative Methods.

Author

Ewing, R. E., Lazarov, R. D., and Vassilevski, P. S.

Subjects

*CONJUGATE gradient methods, *ITERATIVE methods (Mathematics), *DIFFERENCE equations, *ASYMPTOTIC expansions, *DIFFERENCE algebra, *STOCHASTIC difference equations

Abstract

Two preconditioning techniques for solving difference equations arising infinite difference approximation of elliptic problems on cell-centered grids are studied. It is proven that the BEPS and the FAC preconditioners are spectrally equivalent to the corresponding finite difference schemes, including a nonsymmetric one, which is of higher-order accuracy. Numerical experiments that demonstrate the fast convergence of the preconditioned iterative methods (CG and GCG-LS in the nonsymmetric case) are presented. [ABSTRACT FROM AUTHOR]

Published

1994

169. Two-grid quasilinearization approach to ODEs with applications to model problems in physics and mechanics

Author

Koleva, Miglena N. and Vulkov, Lubin G.

Subjects

*QUASILINEARIZATION, *NUMERICAL grid generation (Numerical analysis), *DIFFERENTIAL equations, *MATHEMATICAL physics, *NONLINEAR boundary value problems, *ITERATIVE methods (Mathematics), *NEWTON-Raphson method, *ALGORITHMS

Abstract

Abstract: In this paper we propose a two-grid quasilinearization method for solving high order nonlinear differential equations. In the first step, the nonlinear boundary value problem is discretized on a coarse grid of size H. In the second step, the nonlinear problem is linearized around an interpolant of the computed solution (which serves as an initial guess of the quasilinearization process) at the first step. Thus, the linear problem is solved on a fine mesh of size h, . On this base we develop two-grid iteration algorithms, that achieve optimal accuracy as long as the mesh size satisfies ,  , where r is the rth Newton''s iteration for the linearized differential problem. Numerical experiments show that a large class of NODEs, including the Fisher–Kolmogorov, Blasius and Emden–Fowler equations solving with two-grid algorithm will not be much more difficult than solving the corresponding linearized equations and at the same time with significant economy of the computations. [Copyright &y& Elsevier]

Published

2010

170. A new two-level defect-correction method for the steady Navier–Stokes equations.

Author

Shang, Yueqiang

Subjects

*NAVIER-Stokes equations, *REYNOLDS number, *REYNOLDS equations, *DISCRETIZATION methods, *VISCOSITY

Abstract

A new defect-correction method based on subgrid stabilization for the simulation of steady incompressible Navier–Stokes equations with high Reynolds numbers is proposed and studied. This method uses a two-grid finite element discretization strategy and consists of three steps: in the first step, a small nonlinear coarse mesh system is solved, and then, in the following two steps, two Newton-linearized fine mesh problems which have the same stiffness matrices with only different right-hand sides are solved. The nonlinear coarse mesh system incorporates an artificial viscosity term into the Navier–Stokes system as a stabilizing factor, making the nonlinear system easier to resolve. While the linear fine mesh problems are stabilized by a subgrid model defined by an elliptic projection into lower-order finite element spaces for the velocity. Error bounds of the approximate solutions are estimated. Algorithmic parameter scalings are derived from the analysis. Effectiveness of the proposed method is also illustrated by some numerical results. • A new defect-correction method for the steady incompressible Navier–Stokes equations at high Reynolds numbers is presented and studied. • The method combines the best algorithmic features of the two-grid discretization method, defect-correction method and subgrid stabilization method. • The method is superior to the usual two-level subgrid stabilization methods and the common two-level defect-correction methods. • Scalings of the algorithmic parameters are derived. Error bounds for the discrete solution are also estimated. • Three series of numerical tests are provided to demonstrate the promise of the method. [ABSTRACT FROM AUTHOR]

Published

2021

171. An efficient two-grid method for the Cahn–Hilliard equation with the concentration-dependent mobility and the logarithmic Flory-Huggins bulk potential.

Author

Jia, Hongen, Li, Yang, Feng, Guorui, and Li, Kaitai

Subjects

*CAHN-Hilliard-Cook equation, *FINITE element method, *NEWTON-Raphson method, *EQUATIONS, *LINEAR equations

Abstract

In this paper, we consider the two-grid method for solving Cahn–Hilliard equation with the concentration-dependent mobility and the logarithmic Flory-Huggins bulk potential. This two-grid method consists of two steps. First step, solve the Cahn–Hilliard equation with full implicit mixed finite element method and Newton iteration method on a coarse grid. Second step, solve two linear equations on a fine grid. The stability and convergence of the proposed scheme are established. Finally, some numerical experiments are presented. [ABSTRACT FROM AUTHOR]

Published

2020

172. Uniformly superconvergent analysis of an efficient two-grid method for nonlinear Bi-wave singular perturbation problem.

Author

Shi, Dongyang and Wu, Yanmi

Subjects

*SINGULAR perturbations, *NONLINEAR analysis, *ALGORITHMS

Abstract

The main aim of this paper is to present a two-grid method for the fourth order nonlinear Bi-wave singular perturbation problem with low order nonconforming finite element based on the Ciarlet–Raviart scheme. The existence and uniqueness of the approximation solution are demonstrated through the Brouwer fixed point theorem and the uniform superconvergent estimates in the broken H 1 − norm and L 2 − norm are obtained, which are independent of the perturbation parameter δ. Some numerical results indicate that the proposed method is indeed an efficient algorithm. [ABSTRACT FROM AUTHOR]

Published

2020

173. Two-grid methods for a class of nonlinear elliptic eigenvalue problems

Author

Rachida Chakir, Eric Cancès, Lianhua He, Yvon Maday, Centre d'Enseignement et de Recherche en Mathématiques et Calcul Scientifique (CERMICS), École des Ponts ParisTech (ENPC), Laboratoire Instrumentation, Simulation et Informatique Scientifique (IFSTTAR/COSYS/LISIS), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-Communauté Université Paris-Est, Laboratoire Jacques-Louis Lions (LJLL), Université Pierre et Marie Curie - Paris 6 (UPMC)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Division of Applied Mathematics (DAM), Brown University, Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), Financial support from the ANR grant Manif and from the French state funds managed by CALSIMLABand the ANR within the Investissements d’Avenir programme under reference ANR-11-IDEX-0004-02,are gratefully acknowledged., Financial support from the ANR grant Manif and from the French state funds managed by CALSIMLAB and the ANR within the Investissements d’Avenir programme under reference ANR-11-IDEX-0004-02,are gratefully acknowledged., ANR-11-IDEX-0004,SUPER,Sorbonne Universités à Paris pour l'Enseignement et la Recherche(2011), and ANR-11-LABX-0037,CALSIMLAB,LABEX pour la modélisation et la simulation scientifiques en recherche(2011)

Subjects

SPECTRAL AND PSEUDO SPECTRAL APPROXIMATION, General Mathematics, TWO GRID METHOD, FINITE ELEMENT APPROXIMATION, 010103 numerical & computational mathematics, 01 natural sciences, symbols.namesake, Periodic boundary conditions, Applied mathematics, 0101 mathematics, Eigenvalues and eigenvectors, Mathematics, ANALYSE NUMERIQUE, Applied Mathematics, Eigenfunction, [INFO.INFO-NA]Computer Science [cs]/Numerical Analysis [cs.NA], Finite element method, Numerical integration, Two-grid method, 010101 applied mathematics, Sobolev space, Computational Mathematics, Nonlinear system, NONLINEAR EIGENVALUE PROBLEM, Dirichlet boundary condition, symbols, GROUND STATE COMPUTATION, [MATH.MATH-NA]Mathematics [math]/Numerical Analysis [math.NA], Numerical analysis, APPROXIMATION

Abstract

In this paper, we introduce and analyze some two-grid methods for nonlinear elliptic eigenvalue problems of the form −div(A∇u)+Vu+ f (u 2)u = λ u, u L 2 = 1. We provide a priori error estimates for the ground state energy, the eigenvalue λ , and the eigenfunction u, in various Sobolev norms. We focus in particular on the Fourier spectral approximation (for periodic boundary conditions), and on the P 1 and P 2 finite element discretizations (for homogeneous Dirichlet boundary conditions), taking numerical integration errors into account. Finally, we provide numerical examples illustrating our analysis.

Published

2017

174. Numerical solution of two-dimensional nonlinear Schrödinger equation using a new two-grid finite element method.

Author

Hu, Hanzhang and Chen, Yanping

Subjects

*SCHRODINGER equation, *NEWTON-Raphson method, *NONLINEAR Schrodinger equation, *FINITE element method

Abstract

A new two-grid finite element scheme is presented for two-dimensional nonlinear Schrödinger equation. One Newton iteration is applied on the fine grid to linearize the nonlinear system using the coarse-grid solution as the initial guess, and furthermore one more linear system on the coarse space is solved. The error estimations of the two-grid solution in the L 2 and H 1 norm are given. It is shown, both theoretically and numerically, that the coarse space can be extremely coarse and two-grid algorithm still achieves optimal approximation as long as the mesh sizes satisfy H = O (h 1 3 ). [ABSTRACT FROM AUTHOR]

Published

2020

175. A two-grid method with expanded mixed element for nonlinear reaction-diffusion equations

Author

Liu, Wei, Rui, Hong-xing, and Guo, Hui

Published

2011

176. A Two-Level Method for Nonsymmetric Eigenvalue Problems

Author

Kolman, Karel

Published

2005

177. Two-Grid Method for Burgers’ Equation by a New Mixed Finite Element Scheme

Author

Pengzhan Huang, Xinlong Feng, and Xiaohui Hu

Subjects

Burgers’ equation, Two grid, Crank-Nicolson scheme, Linear system, Mathematical analysis, stable conforming finite element, Mixed finite element method, Finite element method, Burgers' equation, Mathematics::Numerical Analysis, Nonlinear system, Asymptotically optimal algorithm, Modeling and Simulation, Scheme (mathematics), inf-sup condition, QA1-939, two-grid method, Analysis, Mathematics

Abstract

In this article, we present two-grid stable mixed finite element method for the 2D Burgers’ equation approximated by the-P1pair which satisfies the inf–sup condition. This method consists in dealing with the nonlinear system on a coarse mesh with widthHand the linear system on a fine mesh with widthh << Hby using Crank–Nicolson time-discretization scheme. Our results show that if we chooseH2=hthis method can achieve asymptotically optimal approximation. Error estimates are derived in detail. Finally, numerical experiments show the efficiency of our proposed method and justify the theoretical results.

Published

2014

178. Low order nonconforming finite element method for time-dependent nonlinear Schrödinger equation.

Author

Xu, Chao, Zhou, Jiaquan, Shi, Dongyang, and Zhang, Houchao

Subjects

FINITE element method, ITERATIVE methods (Mathematics), SCHRODINGER equation, STOCHASTIC convergence, INTERPOLATION

Abstract

The main aim of this paper is to apply a low order nonconforming EQ1rot finite element to solve the nonlinear Schrödinger equation. Firstly, the superclose property in the broken H1-norm for a backward Euler fully-discrete scheme is studied, and the global superconvergence results are deduced with the help of the special characters of this element and the interpolation postprocessing technique. Secondly, in order to reduce computing cost, a two-grid method is developed and the corresponding superconvergence error estimates are obtained. Finally, a numerical experiment is carried out to confirm the theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2018

179. TWO-GRID METHODS FOR MAXWELL EIGENVALUE PROBLEMS

Author

Jie Zhou, Long Chen, Liuqiang Zhong, Shi Shu, and Xiaozhe Hu

Subjects

Inverse iteration, Numerical Analysis, Numerical and Computational Mathematics, Two grid, Plane wave expansion method, Applied Mathematics, Mathematical analysis, Numerical & Computational Mathematics, Grid, Pure Mathematics, Article, edge element, Computational Mathematics, symbols.namesake, Asymptotically optimal algorithm, Maxwell's equations, Maxwell eigenvalue problem, symbols, two-grid method, Divide-and-conquer eigenvalue algorithm, Eigenvalues and eigenvectors, Mathematics

Abstract

Two new two-grid algorithms are proposed for solving the Maxwell eigenvalue problem. The new methods are based on the two-grid methodology recently proposed by Xu and Zhou [Math. Comp., 70 (2001), pp. 17--25] and further developed by Hu and Cheng [Math. Comp., 80 (2011), pp. 1287--1301] for elliptic eigenvalue problems. The new two-grid schemes reduce the solution of the Maxwell eigenvalue problem on a fine grid to one linear indefinite Maxwell equation on the same fine grid and an original eigenvalue problem on a much coarser grid. The new schemes, therefore, save total computational cost. The error estimates reveals that the two-grid methods maintain asymptotically optimal accuracy, and the numerical experiments presented confirm the theoretical results.

Published

2014

180. Two-Level discretization techniques for ground state computations of Bose-Einstein condensates

Author

Axel Målqvist, Daniel Peterseim, and Patrick Henning

Subjects

Numerical Analysis, Discretization, Applied Mathematics, Mathematical analysis, 35Q55, 65N15, 65N25, 65N30, 81Q05, Numerical Analysis (math.NA), Solver, Eigenfunction, Finite element method, Computational Mathematics, Nonlinear system, finite element, Convergence (routing), FOS: Mathematics, multiscale method, eigenvalue, two-grid method, Mathematics - Numerical Analysis, ddc:510, Ground state, Gross-Pitaevskii equation, Eigenvalues and eigenvectors, numerical upscaling, Mathematics

Abstract

This work presents a new methodology for computing ground states of Bose-Einstein condensates based on finite element discretizations on two different scales of numerical resolution. In a pre-processing step, a low-dimensional (coarse) generalized finite element space is constructed. It is based on a local orthogonal decomposition and exhibits high approximation properties. The non-linear eigenvalue problem that characterizes the ground state is solved by some suitable iterative solver exclusively in this low-dimensional space, without loss of accuracy when compared with the solution of the full fine scale problem. The pre-processing step is independent of the types and numbers of bosons. A post-processing step further improves the accuracy of the method. We present rigorous a priori error estimates that predict convergence rates H^3 for the ground state eigenfunction and H^4 for the corresponding eigenvalue without pre-asymptotic effects; H being the coarse scale discretization parameter. Numerical experiments indicate that these high rates may still be pessimistic., Accepted for publication in SIAM J. Numer. Anal., 2014

Published

2013

181. A two-grid method for solving elliptic problems with inhomogeneous boundary conditions

Author

D.M. Bedivan

Subjects

Elliptic problem, Mathematical analysis, MathematicsofComputing_NUMERICALANALYSIS, Boundary (topology), Singular boundary method, Boundary knot method, Poincaré–Steklov operator, Finite element method, Inhomogeneous boundary conditions, Two-grid method, Computational Mathematics, Finite element, Computational Theory and Mathematics, Discontinuous Galerkin method, Modeling and Simulation, Modelling and Simulation, Boundary value problem, Galerkin method, Mathematics

Abstract

A Galerkin finite element method using a two-grid technique for solving elliptic problems with inhomogeneous essential boundary conditions is considered. At the boundary, the function is approximated by a projection of the given data on a finite dimensional space; in the interior of the domain, a two-grid method is used for solving the algebraic system. An analysis of the L 2 -error is made and sample computations are provided.

Published

1995

182. ДВУХСЕТОЧНЫЙ МЕТОД ДЛЯ ЭЛЛИПТИЧЕСКОГО УРАВНЕНИЯ С ПОГРАНИЧНЫМИ СЛОЯМИ НА СЕТКЕ ШИШКИНА // Ученые записки КФУ. Физико-математические науки 2012 том154 N4

Subjects

Richardson extrapolation, elliptic equation, сетка Шишкина, экстраполяция Ричардсона, Shishkin mesh, difference scheme, сингулярное возмущение, iterative method, итерационный метод, эллиптическое уравнение, two-grid method, разностная схема, двухсеточный метод, singular perturbation

Abstract

Рассмотрено линейное эллиптическое уравнение с регулярным и параболическими пограничными слоями. Для его решения использована схема направленных разностей на сетке Шишкина, обладающая свойством сходимости, равномерной по малому параметру. Исследован вопрос уменьшения необходимого количества арифметических действий для реализации разностной схемы на основе двухсеточного метода. Исследован метод Ричардсона для повышения точности разностной схемы. Приведены результаты численных экспериментов.

Published

2012

183. ДВУХСЕТОЧНЫЙ МЕТОД ДЛЯ ЭЛЛИПТИЧЕСКОГО УРАВНЕНИЯ С ПОГРАНИЧНЫМИ СЛОЯМИ НА СЕТКЕ ШИШКИНА // Ученые записки КФУ. Физико-математические науки 2012 том154 N4

Subjects

Richardson extrapolation, elliptic equation, сетка Шишкина, экстраполяция Ричардсона, Shishkin mesh, difference scheme, сингулярное возмущение, iterative method, итерационный метод, эллиптическое уравнение, two-grid method, разностная схема, двухсеточный метод, singular perturbation

Abstract

Рассмотрено линейное эллиптическое уравнение с регулярным и параболическими пограничными слоями. Для его решения использована схема направленных разностей на сетке Шишкина, обладающая свойством сходимости, равномерной по малому параметру. Исследован вопрос уменьшения необходимого количества арифметических действий для реализации разностной схемы на основе двухсеточного метода. Исследован метод Ричардсона для повышения точности разностной схемы. Приведены результаты численных экспериментов.

Published

2012

184. An Ingham type proof for a two-grid observability theorem

Author

Michel Mehrenberger, Paola Loreti, Dipartimento di Scienze di Base e Applicate per l'Ingegneria, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Scientific computation and visualization (CALVI), Institut de Recherche Mathématique Avancée (IRMA), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Laboratoire des Sciences de l'Image, de l'Informatique et de la Télédétection (LSIIT), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Inria Nancy - Grand Est, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Institut Élie Cartan de Lorraine (IECL), Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), and Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA)

Subjects

Discrete mathematics, Work (thermodynamics), Control and Optimization, Two grid, 010102 general mathematics, ingham type theorem, two-grid method, uniform observability, 010103 numerical & computational mathematics, Type (model theory), 01 natural sciences, Computational Mathematics, Control and Systems Engineering, Observability, 0101 mathematics, [MATH]Mathematics [math], Mathematics

Abstract

International audience; Here, we prove the uniform observability of a two-grid method for the semi-discretization of the 1D-wave equation for a time $t>2\sqrt{2}$; this time, if the observation is made in $(-T/2,T/2)$, is optimal and this result improves an earlier work of Negreanu and Zuazua [C. R. Acad. Sci. Paris Sér. I 338 (2004) 413–418]. Our proof follows an Ingham type approach.

Published

2008

185. Schémas à deux-grilles pour la résolution du problème de Navier-Stokes instationnaire incompressible

Author

Abboud, Hyam, Laboratoire Jacques-Louis Lions (LJLL), Université Pierre et Marie Curie - Paris 6 (UPMC)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Université Saint-Joseph de Beyrouth (USJ), Université Pierre et Marie Curie - Paris VI, Université Saint-Joseph, Beyrouth, Vivette Girault et Toni Sayah(girault@ann.jussieu.fr, tsayah@fs.usj.edu.lb), and Abboud, Hyam

Subjects

mini-élément, écoulements fluides instationnaires incompressibles, first and second order accuracy scheme in time, équations de Navier-Stokes, finite element method, schémas d'ordre un et deux en temps, non linear problem, time-dependent incompressible flows, [MATH] Mathematics [math], Two-grid method, "mini-élément", Taylor-Hood finite element, Méthode à deux grilles, Navier-Stokes equations, [MATH]Mathematics [math], élément fini de Taylor-Hood, problème non-linéaire, méthode des éléments finis

Abstract

This thesis focuses on the time-dependent incompressible Navier-Stokes problem totally discretized in time and space, in two dimensions, by a two-grid method.In the first part, we extend the two-grid method, appliedby V. Girault and J.-L. Lions to the transient semi-discretized Navier-Stokes problem, to the totally discretized Navier-Stokes problem in time (by a first order scheme) and in space (by a first order finite element method).In the first step, the fully non-linear problem is discretized in space on a coarse grid with mesh-size H and time step Delta t. In the second step, the problem is linearized around the velocity u_H computed in the first step and is discretized in space on a fine grid with mesh-size h and the same time step.The two-grid strategy is motivated by the fact that under suitableassumptions, the contribution of u_H to the error in the non-linear term, is measured in the L^2 norm in space and time, and thus has hopefully a higher-order than if it were measured in the H^1 norm in space.In the second part, since our objectif is to gain in order of convergence and in complexity of the scheme, we study a secondorder time accuracy two-grid scheme for the totally discretized intime and space Navier-Stokes problem.We present the following results: for the first order scheme, if h = H^2 = Delta t, then the global error of the two-grid algorithm is of the order of h. For the second order scheme, if h^2 = (\Delta t)^2 = H^3, then the global error of the two-grid algorithm is of the order of h^2: the same results as would have been obtained if the non-linear problem had been solved directly on the fine grid., Dans ce travail nous nous intéressons à la résolution du problème d'évolution de Navier-Stokes incompressible totalement discrétisé en temps et en espace, en dimension deux par une méthode à deux grilles. Dans un premier temps, nous étendons la méthode à deux grilles, appliquée par V. Girault et J.-L. Lions au problème de Navier-Stokes instationnaire semi-discrétisé au problème de Navier-Stokes totalement discrétisé en temps (par un schéma d'ordre un) et en espace (par une méthode d'éléments finis d'ordre un). Dans la première étape, le problème non-linéaire est discrétisé en espace et en temps sur une grille grossière de pas d'espace H avec un pas de temps Delta t. Puis dans la deuxième étape, le problème, linéarisé autour de la vitesse u_H calculée à l'étape précédente, est discrétisé en espace sur une grille fine de pas d'espace h et le même pas de temps. L'idée de la méthode à deux grilles est que, sous des hypothèses adéquates, la contribution de u_H à l'erreur dans le terme non-linéaire en espace, est mesurée en norme L^2 en espace et en temps et a un ordre plus élevé que si elle était mesurée en norme H^1. Dans un deuxième temps, vu que le but est de gagner en ordre de convergence de l'erreur totale du schéma ainsi qu'en complexité nous étudions un schéma à deux grilles d'ordre deux en temps du problème totalement discrétisé en temps et en espace de Navier-Stokes. Nous présentons les résultats suivants: dans le cas de la résolution du schéma d'ordre un en temps, si h = H^2 = Delta t, alors l'erreur globale de l'algorithme à deux grilles est de l'ordre de h. Dans le cas du schéma d'ordre deux en temps, si h^2 = (Delta t)^2 = H^3, alors l'erreur globale de l'algorithme à deux grilles est de l'ordre de h^2: résultats identiques à ceux de la résolution directe du problème non-linéaire sur une grille fine.

Published

2006

186. A two-grid method of a mixed Stokes-Darcy model for coupling fluid flow with porous media flow

Author

Mu, Mo, Xu, Jinchao, Mu, Mo, and Xu, Jinchao

Abstract

We study numerical methods for solving a coupled Stokes-Darcy problem in porous media flow applications. A two-grid method is proposed for decoupling the mixed model by a coarse grid approximation to the interface coupling conditions. Error estimates are derived for the proposed method. Both theoretical analysis and numerical experiments show the efficiency and effectiveness of the two-grid approach for solving multimodeling problems. Potential extensions and future directions are discussed.

Published

2007

187. An Efficient Two-grid Method for a Two-phase Mixed-domain Model of Polymer Exchange Membrane Fuel Cell

Author

MingyanHe, Pengtao Sun, Ziping Huang, and ChengWang

Subjects

Mathematical optimization, Partial differential equation, Discretization, Computer simulation, Liquid water, Computer science, two-phase model, Proton exchange membrane fuel cell, Mechanics, Domain model, Anode, Momentum, Nonlinear system, Linearization, General Earth and Planetary Sciences, Fuel cells, PEMFC, two-grid method, finite element-upwind finite volume method, Water vapor, General Environmental Science

Abstract

In this paper, an efficientandfast numerical methodis studiedand implementedfora simplifiedtwo-phasemixed domain model of polymer exchange membrane fuel cell (PEMFC), which fully incorporates both the anode and cathode sides, including the conservation equations of mass, momentum, water vapor concentration, liquid water saturationandwater content.Theproposed numericalalgorithmisbasedonthetwo-grid discretization technique,the combined finite element-upwind finitevolume method and some other appropriate linearization schemes. The original nonlinear partial differential equations are only solved on the coarse grid while the fine grid approximation solution is obtained linearly. Therefore the computational time can be reduced tremendously compared with the traditional one-grid method. Numerical experiments of the two-grid method and conventional method for a two-phase mixed domain fuel cell model are carried out, showing that the presented method is effective and accurate for the numerical simulation of PEMFC.

188. Numerical methods for nonlinear inverse problems

Author

Pekka Neittaanmäki, Antti Niemistö, and Tommi Kärkkäinen

Subjects

Nonlinear inverse problem, Inverse problems, Mathematical optimization, Finite element method, Numerical analysis, Applied Mathematics, Inverse problem, Optimal control, Two-grid method, Identification (information), Computational Mathematics, Rate of convergence, Distributed parameter system, Error estimates, Mathematics

Abstract

Inverse problems of distributed parameter systems with applications to optimal control and identification are considered. Numerical methods and their numerical analysis for solving this kind of inverse problems are presented, main emphasis being on the estimates of the rate of convergence for various schemes. Finally, based on the given error estimates, a two-grid method and related algorithms are introduced, which can be used to solve nonlinear inverse problems effectively.

189. ДВУХСЕТОЧНЫЙ МЕТОД ДЛЯ ЭЛЛИПТИЧЕСКОГО УРАВНЕНИЯ С ПОГРАНИЧНЫМИ СЛОЯМИ НА СЕТКЕ ШИШКИНА // Ученые записки КФУ. Физико-математические науки 2012 том154 N4

Author

Тиховская Светлана Валерьевна and Тиховская Светлана Валерьевна

Abstract

Рассмотрено линейное эллиптическое уравнение с регулярным и параболическими пограничными слоями. Для его решения использована схема направленных разностей на сетке Шишкина, обладающая свойством сходимости, равномерной по малому параметру. Исследован вопрос уменьшения необходимого количества арифметических действий для реализации разностной схемы на основе двухсеточного метода. Исследован метод Ричардсона для повышения точности разностной схемы. Приведены результаты численных экспериментов.

190. Numerical simulation of two-phase flow with interface tracking by adaptive Eulerian grid subdivision

Author

Jacques Rappaz, Pascal Clausen, and Alexandre Caboussat

Subjects

Geometry, Multiphase Flow, 010103 numerical & computational mathematics, Mesh refinement, 01 natural sciences, Two-phase flow, 010305 fluids & plasmas, Physics::Fluid Dynamics, symbols.namesake, Method of characteristics, Modelling and Simulation, 0103 physical sciences, Volume of fluid method, Volume of fluid model, 0101 mathematics, Mathematics, Computer simulation, Adaptive mesh refinement, Multiphase flow, Eulerian path, Mechanics, Finite element method, Computer Science Applications, Two-grid method, Time splitting algorithm, Tension, Computations, Gas, Modeling and Simulation, symbols, Advection, Free-Surface Flows, Reconstruction, Adaptive Eulerian grid, Projection Scheme

Abstract

A numerical model for the simulation of three-dimensional liquid-gas flow with free surfaces is presented. The incompressible Navier-Stokes equations are assumed to hold in the liquid domain, while the surrounding gas is assumed to be compressible, with constant pressure in each bubble of gas. An implicit time splitting scheme couples a method of characteristics for the solution of advection problems, the continuum surface force model for the computation of surface tension effects, and an implicit scheme for the solution of a time dependent Stokes problem. A two-grid method that couples a structured grid of small cells and a finite element mesh of tetrahedrons is used. A novel interface tracking technique involving local adaptive mesh refinement around the interface is detailed to obtain a more accurate approximation of the free surfaces and the surface forces. Numerical experiments, including sloshing and oscillations problems, illustrate the accuracy improvement when using the adaptive Eulerian grid subdivision. (C) 2011 Elsevier Ltd. All rights reserved.

191. A Two-Grid Discretization Scheme for Eigenvalue Problems

Author

Xu, Jinchao and Zhou, Aihui

Published

2001

192. Local and Parallel Finite Element Algorithms Based on Two-Grid Discretizations

Author

Xu, Jinchao and Zhou, Aihui

Published

2000