Edge (or Nédélec) finite elements are theoretically sound and widely used by the computational electromagnetics community. However, its implementation, especially for high order methods, is not trivial, since it involves many technicalities that are not properly described in the literature. To fill this gap, we provide a comprehensive description of a general implementation of edge elements of first kind within the scientific software project FEMPAR . We cover into detail how to implement arbitrary order (i.e., p-adaptive) elements on hexahedral and tetrahedral meshes. First, we set the three classical ingredients of the finite element definition by Ciarlet, both in the reference and the physical space: cell topologies, polynomial spaces an...
AbstractWe establish interpolation error estimates for the hp-extension of Nédélec's curl- and diver...
AbstractH(curl) conforming finite element discretizations are a powerful tool for the numerical solu...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
Edge (or Nédélec) finite elements are theoretically sound and widely used by the computational elect...
The goal of the presented work is the efficient computation of Maxwell boundary and eigenvalue probl...
In this thesis, we develop and apply finite element methods to problems of div-curl type, mainly fro...
The hp-FEM is a modern version of the Finite Element Method (FEM) which admits elements with differe...
In Finite Element Methods for solving electromagnetic field problems, the use of Edge Elements has b...
ii The Finite Element Method (FEM) is an extremely powerful and versatile computa-tional technique. ...
Different choices are available when constructing vector finite element bases in real coordinates. I...
This thesis deals with the higher-order Finite Element Method (FEM) for computational electromagneti...
We start with a brief introduction to the conforming finite element method on polygonal/polyhedral m...
The standard Adaptive Edge Finite Element Method (AEFEM), using first/second family Nédélec edge e...
In this paper, we discuss how to efficiently evaluate and assemble general finite element variationa...
Purpose - This paper proposes an automatic procedure to characterize discrete source fields. Design/...
AbstractWe establish interpolation error estimates for the hp-extension of Nédélec's curl- and diver...
AbstractH(curl) conforming finite element discretizations are a powerful tool for the numerical solu...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
Edge (or Nédélec) finite elements are theoretically sound and widely used by the computational elect...
The goal of the presented work is the efficient computation of Maxwell boundary and eigenvalue probl...
In this thesis, we develop and apply finite element methods to problems of div-curl type, mainly fro...
The hp-FEM is a modern version of the Finite Element Method (FEM) which admits elements with differe...
In Finite Element Methods for solving electromagnetic field problems, the use of Edge Elements has b...
ii The Finite Element Method (FEM) is an extremely powerful and versatile computa-tional technique. ...
Different choices are available when constructing vector finite element bases in real coordinates. I...
This thesis deals with the higher-order Finite Element Method (FEM) for computational electromagneti...
We start with a brief introduction to the conforming finite element method on polygonal/polyhedral m...
The standard Adaptive Edge Finite Element Method (AEFEM), using first/second family Nédélec edge e...
In this paper, we discuss how to efficiently evaluate and assemble general finite element variationa...
Purpose - This paper proposes an automatic procedure to characterize discrete source fields. Design/...
AbstractWe establish interpolation error estimates for the hp-extension of Nédélec's curl- and diver...
AbstractH(curl) conforming finite element discretizations are a powerful tool for the numerical solu...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...