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Familles de convexes invariantes et équations de diffusion-réaction

Christine Reder (1982)

Annales de l'institut Fourier

Pour localiser la solution d’un système de diffusion-réaction, il suffit de construire une famille de convexes $(K_{t})_{t \geq 0}$ , invariante par rapport au champ de vecteurs associé à ce système; la solution est alors incluse dans $K_{t}$ à l’instant $t$ dès qu’elle est contenue dans $K_{0}$ à l’instant zéro. Les fonctions d’appui associées à de telles familles de convexes sont solutions d’un système différentiel, mais celui-ci peut également engendrer des familles non invariantes.

Fast and heteroclinic solutions for a second order ODE.

Arias, Margarita (2006)

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

Fattening on two dimensions obtained with a nonsymmetric anisotropy: Numerical simulations.

Paolini, M. (1998)

Acta Mathematica Universitatis Comenianae. New Series

Feedback stabilization of a boundary layer equation

Jean-Marie Buchot, Jean-Pierre Raymond (2011)

ESAIM: Control, Optimisation and Calculus of Variations

We are interested in the feedback stabilization of a fluid flow over a flat plate, around a stationary solution, in the presence of perturbations. More precisely, we want to stabilize the laminar-to-turbulent transition location of a fluid flow over a flat plate. For that we study the Algebraic Riccati Equation (A.R.E.) of a control problem in which the state equation is a doubly degenerate linear parabolic equation. Because of the degenerate character of the state equation, the classical existence...

Feedback stabilization of a boundary layer equation

Jean-Marie Buchot, Jean-Pierre Raymond (2011)

ESAIM: Control, Optimisation and Calculus of Variations

Feedback stabilization of semilinear heat equations.

Barbu, V., Wang, G. (2003)

Abstract and Applied Analysis

Fehlerschranken und Eindeutigkeitsaussagen für die Lösungen nichtlinearer, stark gekoppelter, parabolischer Differentialgleichungssysteme.

Karl Nickel (1976/1977)

Mathematische Zeitschrift

Fieldless methods for the simulation of stationary and nonstationary induction heating

Doležel, Ivo, Šolín, Pavel, Ulrych, Bohuš (2002)

Equadiff 10

Fifth-order numerical methods for heat equation subject to a boundary integral specification.

Rehman, M.A., Taj, M.S.A., Butt, M.M. (2010)

Acta Mathematica Universitatis Comenianae. New Series

Finite Difference Approximation of Strong Solutions of a Parabolic Interface Problem on Disconnected Domains

Boško S. Jovanović, Lubin G. Vulkov (2008)

Publications de l'Institut Mathématique

Finite difference approximation to the Cauchy problem for non-linear parabolic differential equations

P. Besala (1985)

Annales Polonici Mathematici

Finite difference approximations for a class of nonlocal parabolic equations.

Lin, Yanping, Xu, Shuzhan, Yin, Hong-Ming (1997)

International Journal of Mathematics and Mathematical Sciences

Finite difference discretization with variable mesh of the Schrodinger equation in a variable domain

Georgios D. Akrivis, Vassilios A. Dougalis (1990)

Δελτίο της Ελληνικής Μαθηματικής Εταιρίας

Finite difference method for the parabolic problem with delta function

Dejan R. Bojović (2010)

Kragujevac Journal of Mathematics

Finite difference scheme for the Willmore flow of graphs

Tomáš Oberhuber (2007)

Kybernetika

In this article we discuss numerical scheme for the approximation of the Willmore flow of graphs. The scheme is based on the finite difference method. We improve the scheme we presented in Oberhuber [Obe-2005-2,Obe-2005-1] which is based on combination of the forward and the backward finite differences. The new scheme approximates the Willmore flow by the central differences and as a result it better preserves symmetry of the solution. Since it requires higher regularity of the solution, additional...

Finite Difference Schemes on Nonuniform Meshes for Parabolic Problems With Generalized Solutions

Boško Jovanović, Peter P. Matus (2000)

Publications de l'Institut Mathématique

Finite dimensional dynamics for Kolmogorov-Petrovsky-Piskunov equation.

Kruglikov, Boris, Lychagina, Olga (2005)

Lobachevskii Journal of Mathematics

Finite dimensional global attractor for a class of doubly nonlinear parabolic equations

Alain Miranville (2006)

Open Mathematics

Our aim in this paper is to study the long time behavior of a class of doubly nonlinear parabolic equations. In particular, we prove the existence of the global attractor which has, in one and two space dimensions, finite fractal dimension.

Finite element analyis of exponentially fitted Lumped schemes for time-dependent convection-diffusion problems.

Martin Stynes, Wen Guo (1993/1994)

Numerische Mathematik

Finite element analysis of a system of quasi-parabolic partial differential equations

Jozef Brilla (1974)

Acta Universitatis Carolinae. Mathematica et Physica

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