Add to ORKGAbstract. We present a fully adaptive multiresolution scheme for spatially one-dimensional quasilinear strongly degenerate parabolic equations with zero-flux and periodic boundary conditions. The numerical scheme is based on a finite volume discretization using the Engquist-Osher numerical flux and explicit time stepping. An adaptive multiresolution scheme based on cell averages is then used to speed up the CPU time and the memory requirements of the underlying finite volume scheme, whose first-order version is known to converge to an entropy solution of the problem. A particular feature of the method is the storage of the multiresolution representation of the solution in a graded tree, whose leaves are the non-uniform finite volumes on whi...
Many problems of physical interest have solutions which are generally quite smooth in a large portio...
Gradient schemes is a framework that enables the unified convergence analysis of many numerical meth...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...
We present a fully adaptive multiresolution scheme for spatially one-dimensional quasilinear strong...
Abstract. We present a fully adaptive multiresolution scheme for spatially one-dimensional quasi-lin...
In the present work we extend multiresolution schemes to strongly degenerate parabolic (or mixed-typ...
A fully space-adaptive multiresolution method is applied to an explicit finite volume scheme for sol...
AbstractWe propose a modified adaptive multiresolution scheme for solving d-dimensional hyperbolic c...
We propose a modified adaptive multiresolution scheme for solving d-dimensional hyperbolic conservat...
Spatially two-dimensional, possibly degenerate reaction–diffusion systems, with a focus on models of...
We present a fully adaptive numerical scheme for evolutionary PDEs in Cartesian geometry based on a ...
This paper considers the design of adaptive finite-volume discretizations for conservation laws. The...
This paper establishes an innovative and efficient multiresolution adaptive approach combined with h...
This dissertation deals with different aspects of numerical and mathematical analysis of systems of ...
A fully adaptive numerical scheme for solving PDEs based on a finite volume discretization with exp...
Many problems of physical interest have solutions which are generally quite smooth in a large portio...
Gradient schemes is a framework that enables the unified convergence analysis of many numerical meth...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...
We present a fully adaptive multiresolution scheme for spatially one-dimensional quasilinear strong...
Abstract. We present a fully adaptive multiresolution scheme for spatially one-dimensional quasi-lin...
In the present work we extend multiresolution schemes to strongly degenerate parabolic (or mixed-typ...
A fully space-adaptive multiresolution method is applied to an explicit finite volume scheme for sol...
AbstractWe propose a modified adaptive multiresolution scheme for solving d-dimensional hyperbolic c...
We propose a modified adaptive multiresolution scheme for solving d-dimensional hyperbolic conservat...
Spatially two-dimensional, possibly degenerate reaction–diffusion systems, with a focus on models of...
We present a fully adaptive numerical scheme for evolutionary PDEs in Cartesian geometry based on a ...
This paper considers the design of adaptive finite-volume discretizations for conservation laws. The...
This paper establishes an innovative and efficient multiresolution adaptive approach combined with h...
This dissertation deals with different aspects of numerical and mathematical analysis of systems of ...
A fully adaptive numerical scheme for solving PDEs based on a finite volume discretization with exp...
Many problems of physical interest have solutions which are generally quite smooth in a large portio...
Gradient schemes is a framework that enables the unified convergence analysis of many numerical meth...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...