Add to ORKGThe estimation of discretization error in numerical simulations is a key com-ponent in the development of uncertainty quantification. In particular, there exists a need for reliable, robust estimators for finite volume and finite differ-ence discretizations of hyperbolic partial differential equations. The approach espoused here, often called the error transport approach in the literature, is to solve an auxiliary error equation concurrently with the primal governing equation to obtain a point-wise (cell-wise) estimate of the discretization error. Nonlinear, time-dependent problems are considered. In contrast to previous work, fully nonlinear error equations are advanced, and potential benefits are identified. A systematic approach to appro...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
Abstract. Numerical error estimation for time dependent hyperbolic prob-lems is challenging for theo...
AbstractStandard error estimates for approximations to hyperbolic equations are only valid over a fi...
summary:A posteriori error estimates for a nonlinear parabolic problem are introduced. A fully discr...
A posteriori error estimates for a nonlinear parabolic problem are introduced. A fully discrete sche...
We present an a posteriori error analysis for the discontinuous Galerkin discretization error of fir...
A posteriori error estimates for a nonlinear parabolic problem are introduced. A fully discrete sche...
We develop a posteriori nite element discretization error estimates for the wave equation. In one di...
The current work concerns the study and the implementation of a modern algorithm for error estimatio...
The author considers the discretization of linear nonstationary (essentially) hyperbolic systems by ...
This paper presents in a unified framework the most representative state-of-the-art techniques on a ...
Discuss Galerkin approximation to a type of second order nonlinear hyperbolic partial differential e...
When hyperbolic partial differential equations are replaced by numerical finite-difference or finite...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
Abstract. Numerical error estimation for time dependent hyperbolic prob-lems is challenging for theo...
AbstractStandard error estimates for approximations to hyperbolic equations are only valid over a fi...
summary:A posteriori error estimates for a nonlinear parabolic problem are introduced. A fully discr...
A posteriori error estimates for a nonlinear parabolic problem are introduced. A fully discrete sche...
We present an a posteriori error analysis for the discontinuous Galerkin discretization error of fir...
A posteriori error estimates for a nonlinear parabolic problem are introduced. A fully discrete sche...
We develop a posteriori nite element discretization error estimates for the wave equation. In one di...
The current work concerns the study and the implementation of a modern algorithm for error estimatio...
The author considers the discretization of linear nonstationary (essentially) hyperbolic systems by ...
This paper presents in a unified framework the most representative state-of-the-art techniques on a ...
Discuss Galerkin approximation to a type of second order nonlinear hyperbolic partial differential e...
When hyperbolic partial differential equations are replaced by numerical finite-difference or finite...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...
An error estimate is presented for a fully discrete, linearized and stabilized finite element method...