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Displaying 81 – 100 of 1395

A new domain decomposition method for the compressible Euler equations

Victorita Dolean, Frédéric Nataf (2006)

ESAIM: Mathematical Modelling and Numerical Analysis

In this work we design a new domain decomposition method for the Euler equations in 2 dimensions. The starting point is the equivalence with a third order scalar equation to whom we can apply an algorithm inspired from the Robin-Robin preconditioner for the convection-diffusion equation [Achdou and Nataf, C. R. Acad. Sci. Paris Sér. I325 (1997) 1211–1216]. Afterwards we translate it into an algorithm for the initial system and prove that at the continuous level and for a decomposition into 2 sub-domains,...

A new energy conservative scheme for regularized long wave equation

Yuesheng Luo, Ruixue Xing, Xiaole Li (2021)

Applications of Mathematics

An energy conservative scheme is proposed for the regularized long wave (RLW) equation. The integral method with variational limit is used to discretize the spatial derivative and the finite difference method is used to discretize the time derivative. The energy conservation of the scheme and existence of the numerical solution are proved. The convergence of the order $O (h^{2} + τ^{2})$ and unconditional stability are also derived. Numerical examples are carried out to verify the correctness of the theoretical analysis....

A new error estimate for a fully finite element discretization scheme for parabolic equations using Crank-Nicolson method

Abdallah Bradji, Jürgen Fuhrmann (2014)

Mathematica Bohemica

Finite element methods with piecewise polynomial spaces in space for solving the nonstationary heat equation, as a model for parabolic equations are considered. The discretization in time is performed using the Crank-Nicolson method. A new a priori estimate is proved. Thanks to this new a priori estimate, a new error estimate in the discrete norm of $𝒲^{1, \infty} (ℒ^{2})$ is proved. An $ℒ^{\infty} (ℋ^{1})$ -error estimate is also shown. These error estimates are useful since they allow us to get second order time accurate approximations...

A new reconstruction-enhanced discontinuous Galerkin method for time-dependent problems

Kučera, Václav (2010)

Programs and Algorithms of Numerical Mathematics

This work is concerned with the introduction of a new numerical scheme based on the discontinuous Galerkin (DG) method. We propose to follow the methodology of higher order finite volume schemes and introduce a reconstruction operator into the DG scheme. This operator constructs higher order piecewise polynomial reconstructions from the lower order DG scheme. Such a procedure was proposed already in [2] based on heuristic arguments, however we provide a rigorous derivation, which justifies the increased...

A new second order finite difference conservative scheme.

Guevara-Jordan, J.M., Rojas, S., Freites-Villegas, M., Castillo, J.E. (2005)

Divulgaciones Matemáticas

A new two-dimensional shallow water model including pressure effects and slow varying bottom topography

Stefania Ferrari, Fausto Saleri (2004)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

The motion of an incompressible fluid confined to a shallow basin with a slightly varying bottom topography is considered. Coriolis force, surface wind and pressure stresses, together with bottom and lateral friction stresses are taken into account. We introduce appropriate scalings into a three-dimensional anisotropic eddy viscosity model; after averaging on the vertical direction and considering some asymptotic assumptions, we obtain a two-dimensional model, which approximates the three-dimensional...

A new two-dimensional Shallow Water model including pressure effects and slow varying bottom topography

Stefania Ferrari, Fausto Saleri (2010)

ESAIM: Mathematical Modelling and Numerical Analysis

A non-convex diffusion model for simultaneous image denoising and edge enhancement.

Kim, Seongjai, Lim, Hyeona (2007)

Electronic Journal of Differential Equations (EJDE) [electronic only]

A nonhomogeneous backward heat problem: regularization and error estimates.

Dang Duc Trong, Nguyen Huy Tuan (2008)

Electronic Journal of Differential Equations (EJDE) [electronic only]

A nonlinear diffusion equation with nonlinear boundary conditions: Method of lines

Ján Filo (1988)

Mathematica Slovaca

A note on $(2 𝖪 + 1)$ -point conservative monotone schemes

Huazhong Tang, Gerald Warnecke (2004)

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

First–order accurate monotone conservative schemes have good convergence and stability properties, and thus play a very important role in designing modern high resolution shock-capturing schemes. Do the monotone difference approximations always give a good numerical solution in sense of monotonicity preservation or suppression of oscillations? This note will investigate this problem from a numerical point of view and show that a $(2 K + 1)$ -point monotone scheme may give an oscillatory solution even though...

A note on (2K+1)-point conservative monotone schemes

Huazhong Tang, Gerald Warnecke (2010)

ESAIM: Mathematical Modelling and Numerical Analysis

First–order accurate monotone conservative schemes have good convergence and stability properties, and thus play a very important role in designing modern high resolution shock-capturing schemes. Do the monotone difference approximations always give a good numerical solution in sense of monotonicity preservation or suppression of oscillations? This note will investigate this problem from a numerical point of view and show that a (2K+1)-point monotone scheme may give an oscillatory solution even...

A note on the difference schemes for hyperbolic equations.

Ashyralyev, A., Sobolevskii, P.E. (2001)

Abstract and Applied Analysis

A note on the difference schemes for hyperbolic-elliptic equations.

Ashyralyev, A., Judakova, G., Sobolevskii, P.E. (2006)

Abstract and Applied Analysis

A Note on the Numerical Solution of a Fourth-Order Parabolic Partial Differential Equation

Apostolos Hadjidimos (1978)

Δελτίο της Ελληνικής Μαθηματικής Εταιρίας

A note on the rate of convergence for Chebyshev-Lobatto and Radau systems

Elías Berriochoa, Alicia Cachafeiro, Jaime Díaz, Eduardo Martínez (2016)

Open Mathematics

This paper is devoted to Hermite interpolation with Chebyshev-Lobatto and Chebyshev-Radau nodal points. The aim of this piece of work is to establish the rate of convergence for some types of smooth functions. Although the rate of convergence is similar to that of Lagrange interpolation, taking into account the asymptotic constants that we obtain, the use of this method is justified and it is very suitable when we dispose of the appropriate information.

A note on two dimensional Bratu problem

S. A. Odejide, Y. A. S. Aregbesola (2006)

Kragujevac Journal of Mathematics

A novel solution for the Glauert-jet problem by variational iteration method-Padé approximant.

Shahmohamadi, Hamed, Rashidi, Mohammad Mehdi (2010)

Mathematical Problems in Engineering

A Numerical Approach of the sentinel method for distributed parameter systems

Aboubakari Traore, Benjamin Mampassi, Bisso Saley (2007)

Open Mathematics

In this paper we consider the problem of detecting pollution in some non linear parabolic systems using the sentinel method. For this purpose we develop and analyze a new approach to the discretization which pays careful attention to the stability of the solution. To illustrate convergence properties we give some numerical results that present good properties and show new ways for building discrete sentinels.

A numerical method for solving heat equations involving interfaces.

Li, Zhilin, Shen, Yun-Qiu (1999)

Electronic Journal of Differential Equations (EJDE) [electronic only]

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