The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method (BEM), to reconstruct the electromagnetic eld distribution in the space surrounding unknown sources, in both low and high frequency range. The same procedure also allows to evaluate the induced electric eld non-invasively when human body presents near such sources. By applying BEM (including Green function) to a discretized surface that enclosing the sources, the electromagnetic elds outside the surface (source free region) can be received from an integration of same quantities over this surface. At low frequency range (up to 100 kHz), the induced electric eld inside human body can be also calculated as an inverse process, i.e. applying a...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
In the daily life, we are exposed to electromagnetic fields. One of the sources of these fields is t...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
In this paper, a finite element method, based on a boundary value approach, for the evaluation of th...
A comparison between two theoretical methods, recently adopted for evaluating induced currents in a ...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
Numerical dosimetry makes it possible to evaluate the influence of electromagnetic fields on the hum...
This paper is focused on the uncertainty estimate of a hybrid experimental–numerical procedure for ...
The paper proposes and discusses a boundary element procedure able to predict the distribution of th...
This paper compares different experimental-computational strategies for the estimation of electric f...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
The paper is focused on the estimate of the uncertainty of the results obtained by a hybrid experime...
The interaction between electromagnetic fields and the human body is a very complicated issue. In mo...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
In the daily life, we are exposed to electromagnetic fields. One of the sources of these fields is t...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
In this paper, a finite element method, based on a boundary value approach, for the evaluation of th...
A comparison between two theoretical methods, recently adopted for evaluating induced currents in a ...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
Numerical dosimetry makes it possible to evaluate the influence of electromagnetic fields on the hum...
This paper is focused on the uncertainty estimate of a hybrid experimental–numerical procedure for ...
The paper proposes and discusses a boundary element procedure able to predict the distribution of th...
This paper compares different experimental-computational strategies for the estimation of electric f...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
The paper is focused on the estimate of the uncertainty of the results obtained by a hybrid experime...
The interaction between electromagnetic fields and the human body is a very complicated issue. In mo...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
In the daily life, we are exposed to electromagnetic fields. One of the sources of these fields is t...