Add to ORKGAdaptive algorithms are important tools for efficient finite-element mesh design. In this paper, an error controlled adaptive mesh-refining algorithm is proposed for a non-conforming low-order finite-element method for the Reissner–Mindlin plate model. The algorithm is controlled by a reliable and efficient residual-based a posteriori error estimate, which is robust with respect to the plate's thickness. Numerical evidence for this and the efficiency of the new algorithm is provided in the sense that non-optimal convergence rates are optimally improved in our numerical experiments
We report on recent results about some nonconforming finite elements for plates. All the elements ar...
Typical adaptive mesh-rening algorithms for rst-oder (conforming) nite element methods consist of a...
We prove optimal error estimates in L2 for a nonconforming finite element for Reissner-Mindlin plate...
Adaptive algorithms are important tools for efficient finite-element mesh design. In this paper, an ...
The major theme of the thesis is the development of goal-oriented model adaptive continuous-disconti...
Abstract. This paper establishes a unified a posteriori error estimator for a large class of conform...
This paper establishes a unified a posteriori error estimator for a large class of conforming finit...
International audienceWe propose a simple modification of a recently introduced locking-free finite ...
We propose a locking-free element for plate bending problems, based on the use of nonconforming piec...
The popular MITC finite elements used for the approximation of the Reissner-Mindlin plate are extend...
The popular MITC finite elements used for the approximation of the Reissner-Mindlin plate are extend...
Abstract. Reliable and efficient residual-based a posteriori error estimates are established for the...
The popular MITC finite elements used for the approximation of the Reissner-Mindlin plate are extend...
AbstractThe popular MITC finite elements used for the approximation of the Reissner–Mindlin plate ar...
AbstractThe popular MITC finite elements used for the approximation of the Reissner–Mindlin plate ar...
We report on recent results about some nonconforming finite elements for plates. All the elements ar...
Typical adaptive mesh-rening algorithms for rst-oder (conforming) nite element methods consist of a...
We prove optimal error estimates in L2 for a nonconforming finite element for Reissner-Mindlin plate...
Adaptive algorithms are important tools for efficient finite-element mesh design. In this paper, an ...
The major theme of the thesis is the development of goal-oriented model adaptive continuous-disconti...
Abstract. This paper establishes a unified a posteriori error estimator for a large class of conform...
This paper establishes a unified a posteriori error estimator for a large class of conforming finit...
International audienceWe propose a simple modification of a recently introduced locking-free finite ...
We propose a locking-free element for plate bending problems, based on the use of nonconforming piec...
The popular MITC finite elements used for the approximation of the Reissner-Mindlin plate are extend...
The popular MITC finite elements used for the approximation of the Reissner-Mindlin plate are extend...
Abstract. Reliable and efficient residual-based a posteriori error estimates are established for the...
The popular MITC finite elements used for the approximation of the Reissner-Mindlin plate are extend...
AbstractThe popular MITC finite elements used for the approximation of the Reissner–Mindlin plate ar...
AbstractThe popular MITC finite elements used for the approximation of the Reissner–Mindlin plate ar...
We report on recent results about some nonconforming finite elements for plates. All the elements ar...
Typical adaptive mesh-rening algorithms for rst-oder (conforming) nite element methods consist of a...
We prove optimal error estimates in L2 for a nonconforming finite element for Reissner-Mindlin plate...