A method for determining regions of a finite element method to be refined is presented. The calculation of the residual in the governing differential equation for each element is used as a criterion. Numerical examples are given.Center for Electromechanic
The speed of the Finite Element Method (FEM) is an obstacle to the fast calculation of magnetic fie...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
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...
A novel adaptive degrees-of-freedom (DoFs) finite-element method (FEM) for the numerical computation...
An enhanced version of a mixed field-based formulation for magnetostatics developed in previous pape...
The generation of suitable fine mesh divisions is essential to obtan two -dimensional electric field...
AbstractThe problem of two-dimensional magnetic field during the calculation in electromechanical sy...
An enhanced version of a mixed field-based formulation for magnetostatics previously developed by th...
Suitable fine mesh divisions are essential to obtain fast and accurate solutions in two...
In this paper, a new adaptive method for finite element analysis using dynamic bubble system taking ...
A local error estimation and adaptive meshing method developed by some of the authors for finite ele...
A local error estimation and adaptive meshing method developed by some of the authors for finite ele...
A refinement algorithm for electromagnetic field computations using a combination of finite element ...
The speed of the Finite Element Method (FEM) is an obstacle to the fast calculation of magnetic fie...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
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...
A novel adaptive degrees-of-freedom (DoFs) finite-element method (FEM) for the numerical computation...
An enhanced version of a mixed field-based formulation for magnetostatics developed in previous pape...
The generation of suitable fine mesh divisions is essential to obtan two -dimensional electric field...
AbstractThe problem of two-dimensional magnetic field during the calculation in electromechanical sy...
An enhanced version of a mixed field-based formulation for magnetostatics previously developed by th...
Suitable fine mesh divisions are essential to obtain fast and accurate solutions in two...
In this paper, a new adaptive method for finite element analysis using dynamic bubble system taking ...
A local error estimation and adaptive meshing method developed by some of the authors for finite ele...
A local error estimation and adaptive meshing method developed by some of the authors for finite ele...
A refinement algorithm for electromagnetic field computations using a combination of finite element ...
The speed of the Finite Element Method (FEM) is an obstacle to the fast calculation of magnetic fie...
The finite element method (FEM) is a popular method in computational electromagnetics, and tetrahedr...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
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