In electromagnetic dosimetry, anatomical human models are commonly obtained by segmentation of magnetic resonance imaging or computed tomography scans. In this paper, a human head model extracted from thermal infrared images is examined in terms of its applicability to specific absorption rate (SAR) calculations. Since thermal scans are two-dimensional (2D) representation of surface temperature, this allows researchers to overcome the extensive computational demand associated with 3D simulation. The numerical calculations are performed using the finite-difference time-domain method with mesh sizes of 2 mm at 900 MHz plane wave irradiation. The power density of the incident plane wave is assumed to be 10 W/m(2). Computations were compared wi...
Mapping of radio frequency (RF) energy deposition has been challenging for 50+ years, especially, wh...
We report a numerical study of the induced electric fields and specific absorption rate (SAR) produc...
It is important to accurately characterize the heating of tissues due to the radiofrequency energy a...
This paper deals with thermal analysis of realistic models of the human eye and brain using the fini...
To examine relationships between specific energy absorption rate (SAR) and temperature distributions...
Realistic numerical models of human subjects and their surrounding environment represent the basic p...
To investigate, via numerical simulations, the compliance of the specific absorption rate (SAR) vers...
In the international guidelines/standards for human protection against electromagnetic fields, the s...
A patient in Magnetic Resonance Imaging (MRI) is exposed to the time varying gradient and radio-freq...
Realistic numerical models of human subjects and of the surrounding environment represent the basic ...
The bioheat transfer models conventionally employed in etiology of human thermal infrared (TIR) emit...
The IR emissivity of human skin is extremly high and measurements of infrared radiation emitted by t...
We have demonstrated a successful computer model utilizing ANSIS software that is verified with a pr...
This paper compares the numerical results for the induced electric field, the specific absorption ra...
Medical imaging provides information valuable in diagnosis, planning, and control of therapies. In t...
Mapping of radio frequency (RF) energy deposition has been challenging for 50+ years, especially, wh...
We report a numerical study of the induced electric fields and specific absorption rate (SAR) produc...
It is important to accurately characterize the heating of tissues due to the radiofrequency energy a...
This paper deals with thermal analysis of realistic models of the human eye and brain using the fini...
To examine relationships between specific energy absorption rate (SAR) and temperature distributions...
Realistic numerical models of human subjects and their surrounding environment represent the basic p...
To investigate, via numerical simulations, the compliance of the specific absorption rate (SAR) vers...
In the international guidelines/standards for human protection against electromagnetic fields, the s...
A patient in Magnetic Resonance Imaging (MRI) is exposed to the time varying gradient and radio-freq...
Realistic numerical models of human subjects and of the surrounding environment represent the basic ...
The bioheat transfer models conventionally employed in etiology of human thermal infrared (TIR) emit...
The IR emissivity of human skin is extremly high and measurements of infrared radiation emitted by t...
We have demonstrated a successful computer model utilizing ANSIS software that is verified with a pr...
This paper compares the numerical results for the induced electric field, the specific absorption ra...
Medical imaging provides information valuable in diagnosis, planning, and control of therapies. In t...
Mapping of radio frequency (RF) energy deposition has been challenging for 50+ years, especially, wh...
We report a numerical study of the induced electric fields and specific absorption rate (SAR) produc...
It is important to accurately characterize the heating of tissues due to the radiofrequency energy a...