Add to ORKGOne of the scientific challenges in the electromagnetic compatibility (EMC) and electromagnetic field exposure area is the validation, by means of suitable experiments, of the numerical procedure aimed at the estimation of the electromagnetic quantities generated in a test volume or induced in a human body [1, 2]. This paper describes the arrangement of a first experimental set-up which will allow to compare the measurement of the electromagnetic field quantities induced inside a simple cylindrical phantom with the same quantities estimated numerically
According to Directive 2013/35/EU, any assessment of hazards associated with exposure to electromagn...
The quantitative evaluation of the human hazard due to exposure to nonionizing radiation requires th...
In the paper numerical models of human body have been applied for the evaluation of current density ...
This paper describes the arrangement of a first experimental set‐up which allows the comparison betw...
Numerical dosimetry makes it possible to evaluate the influence of electromagnetic fields on the hum...
Many of the parameters associated with the magnetic resonance imaging (MRI) coils are estimated by m...
This work describes a measuring set-up which allows the comparison between measurements of electroma...
An overview of quasi-static electromagnetic dosimetry is presented. After an introductive descriptio...
International audienceNumerical dosimetry of electromagnetic field induced in the human body by elec...
This paper presents and discusses a comparative numerical and experimental analysis of the electroma...
This paper compares different experimental-computational strategies for the estimation of electric f...
Numerical dosimetry makes it possible to evaluate the influence of electromagnetic fields on the hum...
Simple phantoms are often used both in experimental and numerical studies devoted to the validation ...
Different European and international standards (e.g. ICNIRP guidelines, ANSI C95.1 standard, Europea...
as a dosimetric quantity for EMF bioeffects, and identify ways for increasing the precision in EMF ...
According to Directive 2013/35/EU, any assessment of hazards associated with exposure to electromagn...
The quantitative evaluation of the human hazard due to exposure to nonionizing radiation requires th...
In the paper numerical models of human body have been applied for the evaluation of current density ...
This paper describes the arrangement of a first experimental set‐up which allows the comparison betw...
Numerical dosimetry makes it possible to evaluate the influence of electromagnetic fields on the hum...
Many of the parameters associated with the magnetic resonance imaging (MRI) coils are estimated by m...
This work describes a measuring set-up which allows the comparison between measurements of electroma...
An overview of quasi-static electromagnetic dosimetry is presented. After an introductive descriptio...
International audienceNumerical dosimetry of electromagnetic field induced in the human body by elec...
This paper presents and discusses a comparative numerical and experimental analysis of the electroma...
This paper compares different experimental-computational strategies for the estimation of electric f...
Numerical dosimetry makes it possible to evaluate the influence of electromagnetic fields on the hum...
Simple phantoms are often used both in experimental and numerical studies devoted to the validation ...
Different European and international standards (e.g. ICNIRP guidelines, ANSI C95.1 standard, Europea...
as a dosimetric quantity for EMF bioeffects, and identify ways for increasing the precision in EMF ...
According to Directive 2013/35/EU, any assessment of hazards associated with exposure to electromagn...
The quantitative evaluation of the human hazard due to exposure to nonionizing radiation requires th...
In the paper numerical models of human body have been applied for the evaluation of current density ...