This paper compares the numerical results for the induced electric field, the specific absorption rate (SAR), and the corresponding temperature increase in two detailed models of the human eye. The first model features the human eye placed in the free space, while the second one incorporates the eye model in the realistic head model obtained from the magnetic resonance imaging (MRI) scans. The electromagnetic model is based on the hybrid FEM/BEM formulation for the biological tissue, whereas the thermal dosimetry model is based on the bioheat equation solved by using the finite element method. The preliminary analysis showed a similar distribution of the induced electric field along the pupillary axis obtained in both models, however, the n...
In electromagnetic dosimetry, anatomical human models are commonly obtained by segmentation of magne...
In this paper, several modeling approaches are taken to investigate the effects of 5G millimeterwave...
Abstract: Problem statement: Electromagnetic Radiation from mobile hand set is identified as one of ...
This paper deals with thermal analysis of realistic models of the human eye and brain using the fini...
The paper studies the thermal rise in the human eye caused by time harmonic electromagnetic waves. A...
Introduction: The present study aimed to present a numerical analysis of the penetration depth, spe...
© 2018 IEEE. The study of temperature rise distribution in the human eye under plane electromagnetic...
A 3D anatomical computational model is developed to assess thermal effects due to exposure to the el...
This study investigated the temperature elevation in the eye of anatomically based human head models...
\u3cp\u3eThe eye is considered to be a critical organ when determining safety standards for radio fr...
This article describes the analysis of electromagnetic energy absorption properties of models of the...
From the standpoint of studying the biological effects of microwaves on human eyes, this paper numer...
The interaction between the human eye and electromagnetic (EM) waves in the ISM (industrial, scienti...
Electromagnetic modeling of large scale problems arising from complex geometries, such as the human ...
In this paper, a three-dimensional finite element method is developed to simulate the heat distribut...
In electromagnetic dosimetry, anatomical human models are commonly obtained by segmentation of magne...
In this paper, several modeling approaches are taken to investigate the effects of 5G millimeterwave...
Abstract: Problem statement: Electromagnetic Radiation from mobile hand set is identified as one of ...
This paper deals with thermal analysis of realistic models of the human eye and brain using the fini...
The paper studies the thermal rise in the human eye caused by time harmonic electromagnetic waves. A...
Introduction: The present study aimed to present a numerical analysis of the penetration depth, spe...
© 2018 IEEE. The study of temperature rise distribution in the human eye under plane electromagnetic...
A 3D anatomical computational model is developed to assess thermal effects due to exposure to the el...
This study investigated the temperature elevation in the eye of anatomically based human head models...
\u3cp\u3eThe eye is considered to be a critical organ when determining safety standards for radio fr...
This article describes the analysis of electromagnetic energy absorption properties of models of the...
From the standpoint of studying the biological effects of microwaves on human eyes, this paper numer...
The interaction between the human eye and electromagnetic (EM) waves in the ISM (industrial, scienti...
Electromagnetic modeling of large scale problems arising from complex geometries, such as the human ...
In this paper, a three-dimensional finite element method is developed to simulate the heat distribut...
In electromagnetic dosimetry, anatomical human models are commonly obtained by segmentation of magne...
In this paper, several modeling approaches are taken to investigate the effects of 5G millimeterwave...
Abstract: Problem statement: Electromagnetic Radiation from mobile hand set is identified as one of ...