International audienceDue to the very specific electromagnetic properties of biological tissues, electromagnetic field calculation in the human body is difficult and the choice of the best numerical formulation is not straightforward. This question is analysed by solving a canonical problem: the scattering of a plane wave by concentric spheres. Electromagnetic properties of various biological tissues are considered to take into account the heterogeneity of the human body. Several finite element formulations are compared in the 10Hz-1GHz frequency range with respect to the analytical solution
In this paper, the field prediction inside biological bodies exposed to electromagnetic incident wav...
The aim of the work is to study the electromagnetic field theory, finite element method and the inte...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
International audienceDue to the very specific electromagnetic properties of biological tissues, ele...
This work is part of a process aiming at evaluating and improving the performances of existing tools...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...
The exposure of human body to electromagnetic fields has in the recent years become a matter of grea...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
This work presents an analysis concerning the effects of iteration between electromagnetic fields an...
For investigations of electromagnetic field distributions in biological structures by Finite Element...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
In this paper, a finite element method, based on a boundary value approach, for the evaluation of th...
In this paper, the field prediction inside biological bodies exposed to electromagnetic incident wav...
The aim of the work is to study the electromagnetic field theory, finite element method and the inte...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
International audienceDue to the very specific electromagnetic properties of biological tissues, ele...
This work is part of a process aiming at evaluating and improving the performances of existing tools...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...
The exposure of human body to electromagnetic fields has in the recent years become a matter of grea...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
This work presents an analysis concerning the effects of iteration between electromagnetic fields an...
For investigations of electromagnetic field distributions in biological structures by Finite Element...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
In this paper, a finite element method, based on a boundary value approach, for the evaluation of th...
In this paper, the field prediction inside biological bodies exposed to electromagnetic incident wav...
The aim of the work is to study the electromagnetic field theory, finite element method and the inte...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...