In this paper, a finite element method, based on a boundary value approach, for the evaluation of the electric field distribution in exposed biological phantoms is presented. Starting from the measurement of the electric field around the phantom, the field prediction is obtained by solving a boundary value problem. This allows to avoid the description of the electromagnetic source and the estimation of the electric field distribution also when the illuminating source is unknown or when its numerical model is not available. In order to show the effectiveness of the proposed approach, some numerical results, concerning a two dimensional geometry, are provided. Firstly, the accuracy and validity of the electromagnetic prediction are assessed b...
This paper introduces a Boundary Element reconstruction method to predict the electromagnetic field...
This Thesis concerns the application of two numerical methods, Boundary Element Method (BEM) and Fin...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
The paper proposes and discusses a boundary element procedure able to predict the distribution of th...
In this paper, the field prediction inside biological bodies exposed to electromagnetic incident wav...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
International audienceDue to the very specific electromagnetic properties of biological tissues, ele...
Boundary and finite element modeling approach to the assessment of electrostatic field on human head...
Abstract: In this paper a method for automatic 3D model building is presented. These models are suit...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
The paper is focused on the estimate of the uncertainty of the results obtained by a hybrid experime...
For investigations of electromagnetic field distributions in biological structures by Finite Element...
This paper introduces a Boundary Element reconstruction method to predict the electromagnetic field...
This Thesis concerns the application of two numerical methods, Boundary Element Method (BEM) and Fin...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
The paper proposes and discusses a boundary element procedure able to predict the distribution of th...
In this paper, the field prediction inside biological bodies exposed to electromagnetic incident wav...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
International audienceDue to the very specific electromagnetic properties of biological tissues, ele...
Boundary and finite element modeling approach to the assessment of electrostatic field on human head...
Abstract: In this paper a method for automatic 3D model building is presented. These models are suit...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
The paper is focused on the estimate of the uncertainty of the results obtained by a hybrid experime...
For investigations of electromagnetic field distributions in biological structures by Finite Element...
This paper introduces a Boundary Element reconstruction method to predict the electromagnetic field...
This Thesis concerns the application of two numerical methods, Boundary Element Method (BEM) and Fin...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...