This paper focuses on the estimation of the Specific Absorption Rate (SAR) and temperature increase within an irradiated human body, starting from known values of the electric and magnetic fields around the body. The proposed approach, based on the Boundary Element Method (BEM) for the solution of the integrated electromagnetic/thermal problem, uses SAR values provided by the electromagnetic solution as input for the bioheat equation which includes the effects of the metabolic heat and of the blood flow. The validity of the BEM approach is proved in the analysis of a simplified human model by comparison with the results given by a different numerical method
Possible temperature changes in human body exposed to the radiation emitted from radio/TV/Microwave ...
The Maxwell equations are solved together with the Pennes Bio-heat equation analytically. The proced...
A mathematical analysis of microwave heating equations in one-dimensional multi-layer model has been...
This paper focuses on the estimation of the Specific Absorption Rate (SAR) and temperature increase ...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...
Abstract. During last decades, the environment has undergone serious changes from EM point of view. ...
A simulation of tumour ablation in liver tissue is presented. The ablation is produced by a thin coa...
We report a numerical study of the induced electric fields and specific absorption rate (SAR) produc...
In this paper, a complete electromagnetic and thermal analysis has been performed based on the Penne...
The main objective of this study is to learn about the theory of electromagnetic field and to create...
The exposure of a subject in the far field of radiofrequency sources operating in the 10-900-MHz ran...
A numerical method is developed for estimation of temperature distributions inside tissues heated by...
Electromagnetic-thermal analysis of the human body exposed to base station antennas radiation is pre...
This paper deals with thermal analysis of realistic models of the human eye and brain using the fini...
Purpose: To evaluate SAR as a dosimetric quantity for EMF bioeffects, and identify ways for increasi...
Possible temperature changes in human body exposed to the radiation emitted from radio/TV/Microwave ...
The Maxwell equations are solved together with the Pennes Bio-heat equation analytically. The proced...
A mathematical analysis of microwave heating equations in one-dimensional multi-layer model has been...
This paper focuses on the estimation of the Specific Absorption Rate (SAR) and temperature increase ...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...
Abstract. During last decades, the environment has undergone serious changes from EM point of view. ...
A simulation of tumour ablation in liver tissue is presented. The ablation is produced by a thin coa...
We report a numerical study of the induced electric fields and specific absorption rate (SAR) produc...
In this paper, a complete electromagnetic and thermal analysis has been performed based on the Penne...
The main objective of this study is to learn about the theory of electromagnetic field and to create...
The exposure of a subject in the far field of radiofrequency sources operating in the 10-900-MHz ran...
A numerical method is developed for estimation of temperature distributions inside tissues heated by...
Electromagnetic-thermal analysis of the human body exposed to base station antennas radiation is pre...
This paper deals with thermal analysis of realistic models of the human eye and brain using the fini...
Purpose: To evaluate SAR as a dosimetric quantity for EMF bioeffects, and identify ways for increasi...
Possible temperature changes in human body exposed to the radiation emitted from radio/TV/Microwave ...
The Maxwell equations are solved together with the Pennes Bio-heat equation analytically. The proced...
A mathematical analysis of microwave heating equations in one-dimensional multi-layer model has been...