A comparison between two theoretical methods, recently adopted for evaluating induced currents in a human body, is here presented. In both cases, a vertical ELF electric field is assumed for the coupling to a standard human subject. Specifically, the diakoptic method (DM), applied to a homogeneous multi-sphere model of man with low partitioning degree, and the Boundary Element Method (BEM), applied to a non-homogeneous model with high partitioning degree, have been selected. The analytical and numerical formulations, respectively distinctive of the above methods, are carefully described and a number of data are reported and commented upon
A dissertation submitted to the Faculty of Engineering and the Built Environment, University of the ...
International exposure guidelines such as ICNIRP guidelines and IEEE C95.1 standard are published to...
Purpose - The purpose of this paper is to describe how numerical models of human body have been appl...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
Abstract—The paper presents an assessment of human exposure to extremely-low-frequency (ELF) electri...
The present study provides an intercomparison of the induced quantities in a human model for uniform...
This paper evaluates the currents induced in the human body when exposed to extremely low frequency ...
Most results regarding induced current in the human body related to electric field dosimetry have be...
The paper deals with the deterministic-stochastic model of the human body represented as cylindrical...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
The human body is more and more exposed to the “electrosmog”, due to increasing usage of electricity...
This paper deals with human exposure to extremely low frequency (ELF) magnetic fields generated by a...
A dissertation submitted to the Faculty of Engineering and the Built Environment, University of the ...
International exposure guidelines such as ICNIRP guidelines and IEEE C95.1 standard are published to...
Purpose - The purpose of this paper is to describe how numerical models of human body have been appl...
The paper presents the human exposure assessment to Extremely Low Frequency fields (ELF) by means of...
We computed by finite element the fields induced in an heterogeneous model of the human body by both...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
In this work we present two dual finite element formulations to compute extremely low frequency (ELF...
Abstract—The paper presents an assessment of human exposure to extremely-low-frequency (ELF) electri...
The present study provides an intercomparison of the induced quantities in a human model for uniform...
This paper evaluates the currents induced in the human body when exposed to extremely low frequency ...
Most results regarding induced current in the human body related to electric field dosimetry have be...
The paper deals with the deterministic-stochastic model of the human body represented as cylindrical...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
The human body is more and more exposed to the “electrosmog”, due to increasing usage of electricity...
This paper deals with human exposure to extremely low frequency (ELF) magnetic fields generated by a...
A dissertation submitted to the Faculty of Engineering and the Built Environment, University of the ...
International exposure guidelines such as ICNIRP guidelines and IEEE C95.1 standard are published to...
Purpose - The purpose of this paper is to describe how numerical models of human body have been appl...