The consideration of electromagnetic field sources in potential formulations necessitates the definition of source fields. Such source fields are first defined for both volume and boundary constraints in static electromagnetic models. Then, automatic procedures are proposed to conveniently and efficiently characterize discrete source fields, with regard to their use in finite element formulations, their supports, their direct expression requiring no pre-computation, and their associated constraints. Two application examples are proposed to illustrate the approach
The paper discusses the method of a description of the magnetic field sources in systems with the st...
A 3-D finite-element solution has been used to solve controlled-source electromagnetic (EM) inductio...
Covering the development of field computation in the past forty years, the book intends to be a conc...
AbstractThe consideration of electromagnetic field sources in potential formulations necessitates th...
Purpose - This paper proposes an automatic procedure to characterize discrete source fields. Design/...
Bibliography: leaves 102-106.A program is presented for the solution of static electromagnetic field...
Covering the development of field computation in the past forty years, Field Models in Electricity a...
International audienceProgressive refinements of the current sources in magnetic vector potential fi...
In order to couple external circuits to edge-element discretized electromagnetic models, with full f...
In the calculation of electrodynamic fields using the finite element method, the material-independen...
A suite of programs collectively referred to as 3Dfeem (3-D finite element electromagnetic model) ha...
Progressive refinements of the current sources in magnetic vector potential finite-element (FE) form...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...
peer reviewedVarious constraints can be encountered in partial differential problems. On the one han...
Abstract- A finite-element method is described for computing static and stationary electric and magn...
The paper discusses the method of a description of the magnetic field sources in systems with the st...
A 3-D finite-element solution has been used to solve controlled-source electromagnetic (EM) inductio...
Covering the development of field computation in the past forty years, the book intends to be a conc...
AbstractThe consideration of electromagnetic field sources in potential formulations necessitates th...
Purpose - This paper proposes an automatic procedure to characterize discrete source fields. Design/...
Bibliography: leaves 102-106.A program is presented for the solution of static electromagnetic field...
Covering the development of field computation in the past forty years, Field Models in Electricity a...
International audienceProgressive refinements of the current sources in magnetic vector potential fi...
In order to couple external circuits to edge-element discretized electromagnetic models, with full f...
In the calculation of electrodynamic fields using the finite element method, the material-independen...
A suite of programs collectively referred to as 3Dfeem (3-D finite element electromagnetic model) ha...
Progressive refinements of the current sources in magnetic vector potential finite-element (FE) form...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...
peer reviewedVarious constraints can be encountered in partial differential problems. On the one han...
Abstract- A finite-element method is described for computing static and stationary electric and magn...
The paper discusses the method of a description of the magnetic field sources in systems with the st...
A 3-D finite-element solution has been used to solve controlled-source electromagnetic (EM) inductio...
Covering the development of field computation in the past forty years, the book intends to be a conc...