Add to ORKGThis paper aims at a general guideline to obtain a posteriori error estimates for the finite element error control in computational partial differential equations. In the abstract setting of mixed formulations, a generalised formulation of the corresponding residuals is proposed which then allows for the unified estimation of the respective dual norms. Notably, this can be done with an approach which is applicable in the same way to conforming, nonconforming and mixed discretisations. Subsequently, the unified approach is applied to various model problems. In particular, we consider the Laplace, Stokes, Navier-Lame, and the semi-discrete eddy current equations
Residual-based a posteriori error estimates were derived within one unifying framework for lowest-or...
A unified a posteriori error analysis is derived in extension of Carstensen (Numer Math 100:617–637,...
A unified and robust mathematical model for compressible and incompressible linear elasticity can be...
This paper aims at a general guideline to obtain a posteriori error estimates for the finite element...
Residual-based a posteriori error estimates were derived within one unifying framework for lowest-or...
AbstractConforming and nonconforming error estimators are presented and analyzed for the mixed finit...
A unified framework for a residual-based a posteriori error analysis of standard conforming finite e...
International audienceIn this paper we review the basic concepts to obtain a posteriori error estima...
In this paper the basic concepts to obtain a posteriori error estimates for the finite element metho...
International audienceWe derive in this paper a unified framework for a priori and a posteriori erro...
Diese Arbeit behandelt garantierte Fehlerkontrolle für elliptische partielle Differentialgleichungen...
Residual-based a posteriori error estimates are derived wihtin a unified setting for lowest-order co...
In this paper, a unified framework for a posteriori error estimation for the Stokes problem is devel...
The conventional strategy for controlling the error in finite element (FE) methods is based on a pos...
The mixed hybrid finite element approximation of second order elliptic boundary value problems by hy...
Residual-based a posteriori error estimates were derived within one unifying framework for lowest-or...
A unified a posteriori error analysis is derived in extension of Carstensen (Numer Math 100:617–637,...
A unified and robust mathematical model for compressible and incompressible linear elasticity can be...
This paper aims at a general guideline to obtain a posteriori error estimates for the finite element...
Residual-based a posteriori error estimates were derived within one unifying framework for lowest-or...
AbstractConforming and nonconforming error estimators are presented and analyzed for the mixed finit...
A unified framework for a residual-based a posteriori error analysis of standard conforming finite e...
International audienceIn this paper we review the basic concepts to obtain a posteriori error estima...
In this paper the basic concepts to obtain a posteriori error estimates for the finite element metho...
International audienceWe derive in this paper a unified framework for a priori and a posteriori erro...
Diese Arbeit behandelt garantierte Fehlerkontrolle für elliptische partielle Differentialgleichungen...
Residual-based a posteriori error estimates are derived wihtin a unified setting for lowest-order co...
In this paper, a unified framework for a posteriori error estimation for the Stokes problem is devel...
The conventional strategy for controlling the error in finite element (FE) methods is based on a pos...
The mixed hybrid finite element approximation of second order elliptic boundary value problems by hy...
Residual-based a posteriori error estimates were derived within one unifying framework for lowest-or...
A unified a posteriori error analysis is derived in extension of Carstensen (Numer Math 100:617–637,...
A unified and robust mathematical model for compressible and incompressible linear elasticity can be...