peer reviewedA finite element (FE) perturbation method for computing electrostatic field distortions due to moving conductors is presented. First, an unperturbed problem (in the absence of conductors) is solved with the conventional FE method in the complete domain. Then, a perturbed problem is computed in a reduced region using the solution of the unperturbed problem as a source field. When the source is close to the perturbing regions, an iterative computation may be required. The developed procedure allows for solving sub-problems in reduced domains with independent problem-adapted meshes
Skin and proximity effects are calculated in both active and passive conductors via a subproblem fin...
Abstract: A perturbation finite element method for solving eddy current problems in two separate ste...
Analyses of magnetic systems with position changes of both massive and stranded conductors are perfo...
peer reviewedA finite element perturbation method is developed for computing electrostatic field dis...
This paper deals with the analysis of electrostatic problems involving moving devices by means of a ...
In this paper, a finite element (FE) procedure for modeling electrostatically actuated MEMS is prese...
peer reviewedIn this paper, a finite element (FE) procedure for modeling electrostatically actuated ...
peer reviewedThis paper deals with the coupled electrostatic- mechanical analysis of electrostatical...
A method for solving eddy current problems in two separate steps is developed for global-local analy...
Purpose: To develop a sub-domain perturbation technique for efficiently modeling moving systems in m...
peer reviewedRepetitive finite element (FE) computations are needed when studying variations of geom...
peer reviewedThis paper deals with the electrokinetic modeling of earthing systems by means of a sub...
This paper deals with a new 3D finite element scheme for nondestructive eddy-current testing (ECT) p...
Purpose: To develop a subdomain perturbation technique to calculate skin and proximity effects in in...
Purpose: To develop a sub-domain perturbation technique to efficiently calculate strong skin and pro...
Skin and proximity effects are calculated in both active and passive conductors via a subproblem fin...
Abstract: A perturbation finite element method for solving eddy current problems in two separate ste...
Analyses of magnetic systems with position changes of both massive and stranded conductors are perfo...
peer reviewedA finite element perturbation method is developed for computing electrostatic field dis...
This paper deals with the analysis of electrostatic problems involving moving devices by means of a ...
In this paper, a finite element (FE) procedure for modeling electrostatically actuated MEMS is prese...
peer reviewedIn this paper, a finite element (FE) procedure for modeling electrostatically actuated ...
peer reviewedThis paper deals with the coupled electrostatic- mechanical analysis of electrostatical...
A method for solving eddy current problems in two separate steps is developed for global-local analy...
Purpose: To develop a sub-domain perturbation technique for efficiently modeling moving systems in m...
peer reviewedRepetitive finite element (FE) computations are needed when studying variations of geom...
peer reviewedThis paper deals with the electrokinetic modeling of earthing systems by means of a sub...
This paper deals with a new 3D finite element scheme for nondestructive eddy-current testing (ECT) p...
Purpose: To develop a subdomain perturbation technique to calculate skin and proximity effects in in...
Purpose: To develop a sub-domain perturbation technique to efficiently calculate strong skin and pro...
Skin and proximity effects are calculated in both active and passive conductors via a subproblem fin...
Abstract: A perturbation finite element method for solving eddy current problems in two separate ste...
Analyses of magnetic systems with position changes of both massive and stranded conductors are perfo...