Title :
Computation of the temperature-rise in the human head due to different mobile phone models
Author :
Al-Mously, Salah I.
Author_Institution :
Dept. of Comput. Eng., Koya Univ., Erbil, Iraq
Abstract :
In this paper, the temperature rise in the user´s head due to different mobile phone models is computed for a realistic usage pattern, where the Pennes Bioheat Equation is solved using a conformal Finite-Difference Time-Domain (FDTD)-based electromagnetic solver, SEMCAD X. A heterogeneous High Resolution European Female Head (HR-EFH) with twenty five different tissues is used to simulate the human head, whereas four semi-realistic CAD models, i.e., candy-bar with external antenna, candy-bar with internal antenna, clamshell with external antenna, and clamshell with internal antenna, operating at 900 MHz with antenna output power of 600 mW are used to simulate the commercially available mobile phone models. The results show different temperature rise values in the user´s head due to the different mobile phone handset models.
Keywords :
biohazards; biological effects of radiation; biological tissues; biothermics; finite difference time-domain analysis; mobile antennas; mobile handsets; FDTD; MRI; Pennes bioheat equation; SEMCAD; finite-difference time-domain-based electromagnetic solver; high- resolution european female head; human head; mobile phone antenna; mobile phone models; semi-realistic CAD models; specific absorption rate(SAR); tissues; Computational modeling; Heating; Humans; Mathematical model; Mobile antennas; Mobile handsets; FDTD; MRI; bioheat equation; dosimetry; mobile phone; mobile phone antenna; phantom; specific absorption rate(SAR);
Conference_Titel :
Microwave Symposium (MMS), 2010 Mediterranean
Conference_Location :
Guzelyurt
Print_ISBN :
978-1-4244-7241-3
DOI :
10.1109/MMW.2010.5605152
