Title :
Geometrical aspects of 3D human body exposed to extremely low frequency high voltage electric fields. A BEM approach
Author :
Peratta, Andrés ; Gonzalez, Christopher ; Poljak, Dragan
Author_Institution :
Wessex Inst. of Technol., Southampton
fDate :
Sept. 29 2006-Oct. 1 2006
Abstract :
The paper deals with the three dimensional modelling of the human body exposed to extremely low frequency (ELF) high voltage electric fields by mean of the boundary element method (BEM). Numerical results along head, neck, torso, abdomen, arms, legs and ankles are presented and discussed in the case of grounded subject standing under power distribution lines. The objective is to characterise the influence of different shape and geometrical factors on the current distribution inside the body and electric field in the near field. The inclusion of legs and arms with different orientations with respect to the incident field are considered. The main contribution is to present new results of the BEM for extremely low frequency exposure and to evaluate the relationship between degree of detail in 3D modelling and the corresponding fluctuation of results for induced currents
Keywords :
biological effects of fields; boundary-elements methods; electric field effects; electric fields; power distribution lines; 3D human body; BEM approach; boundary element method; current distribution; extremely low frequency exposure; extremely low frequency high voltage electric fields; incident field are; power distribution lines; Arm; Biological system modeling; Boundary element methods; Frequency; Geophysical measurement techniques; Ground penetrating radar; Humans; Leg; Low voltage; Neck;
Conference_Titel :
Software in Telecommunications and Computer Networks, 2006. SoftCOM 2006. International Conference on
Conference_Location :
Split
Print_ISBN :
953-6114-87-9
Electronic_ISBN :
953-6114-87-9
DOI :
10.1109/SOFTCOM.2006.329708
