10,113 research outputs found
Numerical solving unsteady space-fractional problems with the square root of an elliptic operator
An unsteady problem is considered for a space-fractional equation in a
bounded domain. A first-order evolutionary equation involves the square root of
an elliptic operator of second order. Finite element approximation in space is
employed. To construct approximation in time, regularized two-level schemes are
used. The numerical implementation is based on solving the equation with the
square root of the elliptic operator using an auxiliary Cauchy problem for a
pseudo-parabolic equation. The scheme of the second-order accuracy in time is
based on a regularization of the three-level explicit Adams scheme. More
general problems for the equation with convective terms are considered, too.
The results of numerical experiments are presented for a model two-dimensional
problem.Comment: 21 pages, 7 figures. arXiv admin note: substantial text overlap with
arXiv:1412.570
Entropy Solution Theory for Fractional Degenerate Convection-Diffusion Equations
We study a class of degenerate convection diffusion equations with a
fractional nonlinear diffusion term. These equations are natural
generalizations of anomalous diffusion equations, fractional conservations
laws, local convection diffusion equations, and some fractional Porous medium
equations. In this paper we define weak entropy solutions for this class of
equations and prove well-posedness under weak regularity assumptions on the
solutions, e.g. uniqueness is obtained in the class of bounded integrable
functions. Then we introduce a monotone conservative numerical scheme and prove
convergence toward an Entropy solution in the class of bounded integrable
functions of bounded variation. We then extend the well-posedness results to
non-local terms based on general L\'evy type operators, and establish some
connections to fully non-linear HJB equations. Finally, we present some
numerical experiments to give the reader an idea about the qualitative behavior
of solutions of these equations
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