This paper describes an adaptive mesh refinement algorithm for improving the accuracy in the solution of electromagnetic problems in transmission lines. A residual error indicator is used for detecting the refinement zones, and two h-refinement techniques for triangular meshes (the longest edge bisection and the regular split) are applied for increasing the degrees of freedom in the mesh. This procedure has been applied in several structures and the results show that the adaptive meshing allows obtaining accurate solution with a small amount of unknowns
The adaptive finite-element method (FEM) is an iterative variant of the FEM where, in a first step,...
textJames Clerk Maxwell published in A Treatise on Electricity and Magnetism (1873) a set of partia...
Grooved surface is proposed to reduce the secondary emission yield in a dipole and wiggler magnet of...
We consider problems related to initial meshing and adaptive mesh refinement for the electromagnetic...
The adaptive mesh techniques applied to the Finite Element Method have continuously been an active ...
Mesh quality strongly affects the solution accuracy in electromagnetic finite element analysis. Henc...
Mesh quality strongly affects the solution accuracy in electromagnetic finite-element analysis. Henc...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
A method for determining regions of a finite element method to be refined is presented. The calculat...
Suitable fine mesh divisions are essential to obtain fast and accurate solutions in two...
We propose an automatic, solution based, localized meshing refinement for increasing the accuracy of...
The objective of this dissertation is to develop a reliable and computationally inexpensive adaptive...
The finite-element method (FEM) enables the use of adapted meshes. The simultaneous combination of h...
Meshless methods are numerical methods that have the advantage of high accuracy without the need of ...
Finite-element solution efficiency and accuracy can be directly affected by mesh quality. When emplo...
The adaptive finite-element method (FEM) is an iterative variant of the FEM where, in a first step,...
textJames Clerk Maxwell published in A Treatise on Electricity and Magnetism (1873) a set of partia...
Grooved surface is proposed to reduce the secondary emission yield in a dipole and wiggler magnet of...
We consider problems related to initial meshing and adaptive mesh refinement for the electromagnetic...
The adaptive mesh techniques applied to the Finite Element Method have continuously been an active ...
Mesh quality strongly affects the solution accuracy in electromagnetic finite element analysis. Henc...
Mesh quality strongly affects the solution accuracy in electromagnetic finite-element analysis. Henc...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
A method for determining regions of a finite element method to be refined is presented. The calculat...
Suitable fine mesh divisions are essential to obtain fast and accurate solutions in two...
We propose an automatic, solution based, localized meshing refinement for increasing the accuracy of...
The objective of this dissertation is to develop a reliable and computationally inexpensive adaptive...
The finite-element method (FEM) enables the use of adapted meshes. The simultaneous combination of h...
Meshless methods are numerical methods that have the advantage of high accuracy without the need of ...
Finite-element solution efficiency and accuracy can be directly affected by mesh quality. When emplo...
The adaptive finite-element method (FEM) is an iterative variant of the FEM where, in a first step,...
textJames Clerk Maxwell published in A Treatise on Electricity and Magnetism (1873) a set of partia...
Grooved surface is proposed to reduce the secondary emission yield in a dipole and wiggler magnet of...