Assessment of the human exposure to transient and time-harmonic fields using the enhanced transmission line theory approach

被引:3
作者
Laissaoui, A. [1 ,2 ]
Nekhoul, B. [2 ]
Mezoued, S. [1 ]
Poljak, D. [3 ]
机构
[1] USTHB Univ, Fac Elect & Informat, Algiers, Algeria
[2] Univ Jijel, Fac Sci & Technol, Jijel, Algeria
[3] Univ Split, Fac Elect Engn Mech Engn & Naval Architecture, Split, Croatia
来源
AUTOMATIKA | 2017年 / 58卷 / 04期
关键词
Human exposure; transient field; transmission line approach; specific absorption rate; current density; CURRENT DENSITIES; LOW-FREQUENCY; MODEL;
D O I
10.1080/00051144.2018.1435341
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
The paper deals with the assessment of human exposure to the transient electromagnetic fields and high-frequency (HF) radiation. The formulation of the problem is based on a simplified cylindrical representation of the human body. The analysis is based on the enhanced transmission line (TL) theory. For this purpose, in order to quantify the induced current inside the human body, we solve linear system equations, where the electromagnetic field excitation is represented by two equivalent current and voltage generators. Once the axial current is determined, it is possible to calculate the specific absorption rate (SAR). Some illustrative computational examples are presented in the paper.
引用
收藏
页码:355 / 362
页数:8
相关论文
共 15 条
[1]  
Ahlbom A, 1998, HEALTH PHYS, V74, P494
[2]   FREQUENCY-DEPENDENT IMPEDANCE OF VERTICAL CONDUCTORS AND A MULTICONDUCTOR TOWER MODEL [J].
AMETANI, A ;
KASAI, Y ;
SAWADA, J ;
MOCHIZUKI, A ;
YAMADA, T .
IEE PROCEEDINGS-GENERATION TRANSMISSION AND DISTRIBUTION, 1994, 141 (04) :339-345
[3]   Development of the female voxel phantom, NAOMI, and its application to calculations of induced current densities and electric fields from applied low frequency magnetic and electric fields [J].
Dimbylow, P .
PHYSICS IN MEDICINE AND BIOLOGY, 2005, 50 (06) :1047-1070
[4]   The dielectric properties of biological tissues .2. Measurements in the frequency range 10 Hz to 20 GHz [J].
Gabriel, S ;
Lau, RW ;
Gabriel, C .
PHYSICS IN MEDICINE AND BIOLOGY, 1996, 41 (11) :2251-2269
[5]   Intercomparison of induced fields in Japanese male model for ELF magnetic field exposures: effect of different computational methods and codes [J].
Hirata, Akimasa ;
Yamazaki, Kenichi ;
Hamada, Shoji ;
Kamimura, Yoshitsugu ;
Tarao, Hiroo ;
Wake, Kanako ;
Suzuki, Yukihisa ;
Hayashi, Noriyuki ;
Fujiwara, Osamu .
RADIATION PROTECTION DOSIMETRY, 2010, 138 (03) :237-244
[6]   CURRENT DENSITIES MEASURED IN HUMAN MODELS EXPOSED TO 60-HZ ELECTRIC-FIELDS [J].
KAUNE, WT ;
FORSYTHE, WC .
BIOELECTROMAGNETICS, 1985, 6 (01) :13-32
[7]   Human exposure to transient electromagnetic fields using simplified body models [J].
Mezoued, S. ;
Nekhoul, B. ;
Poljak, D. ;
Drissi, K. El Khamlichi ;
Kerroum, K. .
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS, 2010, 34 (01) :23-29
[8]   A SPICE MODEL FOR MULTICONDUCTOR TRANSMISSION-LINES EXCITED BY AN INCIDENT ELECTROMAGNETIC-FIELD [J].
PAUL, CR .
IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, 1994, 36 (04) :342-354
[9]  
Paul CR, 1994, ANAL MULTICONDUCTOR, P641
[10]   Average power and total energy absorbed in the human body exposed to transient fields [J].
Poljak, D .
MELECON 2004: PROCEEDINGS OF THE 12TH IEEE MEDITERRANEAN ELECTROTECHNICAL CONFERENCE, VOLS 1-3, 2004, :507-510
12