Title :
Induced currents in the human body resulting from the proximity to surfaces at fixed potentials
Author :
González, Cristina ; Peratta, Andrés ; Poljak, Dragan
Author_Institution :
Wessex Inst. of Technol., Southampton
Abstract :
The paper evaluates the currents induced in the human body when exposed to extremely low frequency (60 Hz) electric fields by numerical modelling with boundary elements. The exposure is driven by the voltage of a rectangular panel representing the control keyboard of a power substation room. The main focus is to study the variations of the current density along the vertical axis of the body when located at different distances from the panel. In addition, the sensitivity of the results for the current density when considering the human body with and without its internal organs is estimated. The numerical approach is based on the three dimensional boundary element method (BEM) with the kernel of Laplace equation, in which the human body model considered is a simplified representation which allows parametric modifications of its geometry and physical properties.
Keywords :
Laplace equations; bioelectric potentials; biological effects of fields; boundary-elements methods; current density; electric field effects; neurophysiology; substations; BEM; Laplace equation; central nervous system; control keyboard; current density; current induced effects; extremely low frequency electric fields; fixed electric potentials; frequency 60 Hz; human body; internal organs; power substation room; rectangular panel; three dimensional boundary element method; Biological system modeling; Boundary element methods; Current density; Frequency; Humans; Kernel; Keyboards; Numerical models; Substations; Voltage control;
Conference_Titel :
Software, Telecommunications and Computer Networks, 2007. SoftCOM 2007. 15th International Conference on
Conference_Location :
Split-Dubrovnik
Print_ISBN :
978-953-6114-93-1
Electronic_ISBN :
978-953-6114-95-5
DOI :
10.1109/SOFTCOM.2007.4446080
