Three-dimensional computations of electromagnetic fields are presented with the aid of the method of finite elements. Magnetostatic, eddy current and microwave fields are treated. Both nodal and edge elements are employed. Various formulations are discussed with some advantages and disadvantages pointed out
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
This thesis studies a numerical method to predict the current densities induced in conducting object...
The Boundary Element Method is applied to solve 3 D electromagnetic problems. The basic formulatio...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
A three dimensional finite element formulation and algorithm for the solution of 3-d magnetic fields...
A three dimensional finite element method software package has been developed for solving electromag...
The results of the application of three well-known 3-D magnetic vector potential (MVP)-based finite-...
We consider the 3D modelling of electromagnetic fields by a finite element method when using the mag...
The Finite Element Method (FEM) in recent years has been found as very attractive for electromagneti...
A three dimensional formulation of the finite element method was developed to solve the electromagne...
A geometrical approach of the finite-element analysis applied to electrostatic fields is presented. ...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A suite of programs collectively referred to as 3Dfeem (3-D finite element electromagnetic model) ha...
A method for analyzing 3-D magnetic fields and currents in electrical machines excited from voltage ...
The numerical analysis or design of an arrangement, which require electromagnetic field calculation,...
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
This thesis studies a numerical method to predict the current densities induced in conducting object...
The Boundary Element Method is applied to solve 3 D electromagnetic problems. The basic formulatio...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
A three dimensional finite element formulation and algorithm for the solution of 3-d magnetic fields...
A three dimensional finite element method software package has been developed for solving electromag...
The results of the application of three well-known 3-D magnetic vector potential (MVP)-based finite-...
We consider the 3D modelling of electromagnetic fields by a finite element method when using the mag...
The Finite Element Method (FEM) in recent years has been found as very attractive for electromagneti...
A three dimensional formulation of the finite element method was developed to solve the electromagne...
A geometrical approach of the finite-element analysis applied to electrostatic fields is presented. ...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
A suite of programs collectively referred to as 3Dfeem (3-D finite element electromagnetic model) ha...
A method for analyzing 3-D magnetic fields and currents in electrical machines excited from voltage ...
The numerical analysis or design of an arrangement, which require electromagnetic field calculation,...
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
This thesis studies a numerical method to predict the current densities induced in conducting object...
The Boundary Element Method is applied to solve 3 D electromagnetic problems. The basic formulatio...