The environment is an important parameter when evaluating the exposure to radio-frequency electromagnetic fields. This study investigates numerically the variation on the whole-body and peak spatially averaged-specific absorption rate (SAR) in the heterogeneous virtual family male placed in front of a base station antenna in a reflective environment. The SAR values in a reflective environment are also compared to the values obtained when no environment is present (free space). The virtual family male has been placed at four distances (30 cm, 1 m, 3 m and 10 m) in front of six base station antennas (operating at 300 MHz, 450 MHz, 900 MHz, 2.1 GHz, 3.5 GHz and 5.0 GHz, respectively) and in three reflective environments (a perfectly conducting...
Realistic numerical models of human subjects and of the surrounding environment represent the basic ...
Background: The use of electromagnetic (EM) technologies for military applications is gaining increa...
Interaction between electromagnetic field (EMF) radiated from multiple antennas and human body is cr...
The environment is an important parameter when evaluating the exposure to radio-frequency electromag...
The demonstration of compliance with guidelines for human exposure to base-station antennas can be a...
This research quantifies the effect of homogeneous and inhomogeneous body model on Specific Absorpti...
A new and fast numerical method is presented to assess the whole-body averaged specific absorption r...
The system analysis of specific absorption rate (SAR) in human body exposed to a base station antenn...
In this study we have employed an effective technique for dosimetric analyses of base station antenn...
Assessing experimentally the whole-body specific absorption rate (SARwb) in a complex indoor environ...
In this paper, different exposure situations for a subject standing inside a room of a building with...
In the past, the absorption of electromagnetic fields in a human body has been studied for a homogen...
The safety aspects of the exposure of people to uniform plane waves in the frequency range from 900 ...
Abstract – Specific absorption rate (SAR) inside spherical human head model for half-wave radiating ...
The purpose of this paper is to calculate the specific absorption rate (SAR) distribution in a human...
Realistic numerical models of human subjects and of the surrounding environment represent the basic ...
Background: The use of electromagnetic (EM) technologies for military applications is gaining increa...
Interaction between electromagnetic field (EMF) radiated from multiple antennas and human body is cr...
The environment is an important parameter when evaluating the exposure to radio-frequency electromag...
The demonstration of compliance with guidelines for human exposure to base-station antennas can be a...
This research quantifies the effect of homogeneous and inhomogeneous body model on Specific Absorpti...
A new and fast numerical method is presented to assess the whole-body averaged specific absorption r...
The system analysis of specific absorption rate (SAR) in human body exposed to a base station antenn...
In this study we have employed an effective technique for dosimetric analyses of base station antenn...
Assessing experimentally the whole-body specific absorption rate (SARwb) in a complex indoor environ...
In this paper, different exposure situations for a subject standing inside a room of a building with...
In the past, the absorption of electromagnetic fields in a human body has been studied for a homogen...
The safety aspects of the exposure of people to uniform plane waves in the frequency range from 900 ...
Abstract – Specific absorption rate (SAR) inside spherical human head model for half-wave radiating ...
The purpose of this paper is to calculate the specific absorption rate (SAR) distribution in a human...
Realistic numerical models of human subjects and of the surrounding environment represent the basic ...
Background: The use of electromagnetic (EM) technologies for military applications is gaining increa...
Interaction between electromagnetic field (EMF) radiated from multiple antennas and human body is cr...