Boundary and finite element modeling approach to the assessment of electrostatic field on human head generated by Video Display Units (VDU’s) are compared and discussed. Attention is focused to the field distribution over the surface of the face. The mathematical formulation for the assessment of the electrostatic field is based on the Laplace equation for the electric scalar potential. The electrostatic field is calculated for two different models of face. Numerical results are presented and compared in order to estimate the accuracy and computational efficiency of the two methods for the considered problem. In order to make comparison as meaningful as possible, boundaryand finite element codes have been both developed by theauthors. In ge...
A realistically shaped finite element (FE) model of the human head was developed based on magnetic r...
Holes in the skull may have a large influence on the EEG and ERP. Inverse source modeling techniques...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
Boundary and finite element modeling approach to the assessment of electrostatic field on human head...
Representations of the active cell populations on the cortical surface via electric and magnetic mea...
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...
In this paper the hybrid finite element/boundary element method (FEM/BEM) is used to analyze the hum...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...
The aim of this paper is the investigation of the numerical properties of the boundary element metho...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...
The exposure of human body to electromagnetic fields has in the recent years become a matter of grea...
International audienceThe accurate simulation of the electric fields evoked by neural activity is cr...
The voltage measurements on the scalp and magnetic held measurements near the scalp can be used to c...
A realistically shaped finite element (FE) model of the human head was developed based on magnetic r...
Holes in the skull may have a large influence on the EEG and ERP. Inverse source modeling techniques...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
Boundary and finite element modeling approach to the assessment of electrostatic field on human head...
Representations of the active cell populations on the cortical surface via electric and magnetic mea...
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...
In this paper the hybrid finite element/boundary element method (FEM/BEM) is used to analyze the hum...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...
The aim of this paper is the investigation of the numerical properties of the boundary element metho...
Numerical artifacts affect the reliability of computational dosimetry of human exposure to low-frequ...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...
The exposure of human body to electromagnetic fields has in the recent years become a matter of grea...
International audienceThe accurate simulation of the electric fields evoked by neural activity is cr...
The voltage measurements on the scalp and magnetic held measurements near the scalp can be used to c...
A realistically shaped finite element (FE) model of the human head was developed based on magnetic r...
Holes in the skull may have a large influence on the EEG and ERP. Inverse source modeling techniques...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...