Ear Temperature Increase Produced by Cellular Phones Under Extreme Exposure Conditions
This paper deals with the numerical prediction of temperature increase in the inner ear of subjects exposed to the electromagnetic (EM) radiation of conventional cellular phones. Attention has focused on the geometrical model of the internal ear organs and on including the intrinsic heating of the p...
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| Published in | IEEE transactions on microwave theory and techniques Vol. 60; no. 6; pp. 1728 - 1734 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.06.2012
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9480 1557-9670 |
| DOI | 10.1109/TMTT.2012.2189229 |
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| Abstract | This paper deals with the numerical prediction of temperature increase in the inner ear of subjects exposed to the electromagnetic (EM) radiation of conventional cellular phones. Attention has focused on the geometrical model of the internal ear organs and on including the intrinsic heating of the phone in the numerical thermal analysis. To this aim, infrared (IR) thermographic data have been used as time-variant Dirichlet boundary conditions (BCs) on the touching ear-phone boundary, while new convective BCs are applied on the cells not in contact. Numerical results, obtained by a finite difference (FD) procedure, showed a maximum temperature increase of about 4°C on the external ear, although significant thermal elevations were not observed in the most sensitive internal organs. These temperature rises are obtained under extreme exposure conditions, i.e., when forcing the phone at the maximum power of 250 mW for 30 min. |
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| AbstractList | This paper deals with the numerical prediction of temperature increase in the inner ear of subjects exposed to the electromagnetic (EM) radiation of conventional cellular phones. Attention has focused on the geometrical model of the internal ear organs and on including the intrinsic heating of the phone in the numerical thermal analysis. To this aim, infrared (IR) thermographic data have been used as time-variant Dirichlet boundary conditions (BCs) on the touching ear-phone boundary, while new convective BCs are applied on the cells not in contact. Numerical results, obtained by a finite difference (FD) procedure, showed a maximum temperature increase of about 4°C on the external ear, although significant thermal elevations were not observed in the most sensitive internal organs. These temperature rises are obtained under extreme exposure conditions, i.e., when forcing the phone at the maximum power of 250 mW for 30 min. This paper deals with the numerical prediction of temperature increase in the inner ear of subjects exposed to the electromagnetic (EM) radiation of conventional cellular phones. Attention has focused on the geometrical model of the internal ear organs and on including the intrinsic heating of the phone in the numerical thermal analysis. To this aim, infrared (IR) thermographic data have been used as time-variant Dirichlet boundary conditions (BCs) on the touching ear-phone boundary, while new convective BCs are applied on the cells not in contact. Numerical results, obtained by a finite difference (FD) procedure, showed a maximum temperature increase of about 4[Formula Omitted] on the external ear, although significant thermal elevations were not observed in the most sensitive internal organs. These temperature rises are obtained under extreme exposure conditions, i.e., when forcing the phone at the maximum power of 250 mW for 30 min. This paper deals with the numerical prediction of temperature increase in the inner ear of subjects exposed to the electromagnetic (EM) radiation of conventional cellular phones. Attention has focused on the geometrical model of the internal ear organs and on including the intrinsic heating of the phone in the numerical thermal analysis. To this aim, infrared (IR) thermographic data have been used as time-variant Dirichlet boundary conditions (BCs) on the touching ear-phone boundary, while new convective BCs are applied on the cells not in contact. Numerical results, obtained by a finite difference (FD) procedure, showed a maximum temperature increase of about 4 ~ [compfn] hbox C on the external ear, although significant thermal elevations were not observed in the most sensitive internal organs. These temperature rises are obtained under extreme exposure conditions, i.e., when forcing the phone at the maximum power of 250 mW for 30 min. |
| Author | De Santis, V. |
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| Keywords | Mobile phone infrared thermal imaging Wireless telecommunication Numerical method Boundary condition Convection Geometrical model RF thermal dosimetry FDTD method Elevation Dirichlet problem Dosimetry Biological effect Thermography Mobile radiocommunication Cellular radio Thermal behavior cellular phones Finite difference time-domain analysis Biological effects of electromagnetic radiations Electromagnetic wave Boundary value problem External ear Numerical simulation Thermal analysis Thermal imaging Finite difference method |
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| References | ref13 wolf-heidegger (ref19) 2005 ref24 ref12 ref23 ref15 (ref1) 1998; 47 ref20 ref11 ref22 ref10 ref21 taurisano (ref14) 2000; 44 ref17 ref16 ref18 ref8 ref7 (ref2) 2006 ref9 ref4 ref3 ref6 ref5 |
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| SubjectTerms | Applied sciences Biological effects of electromagnetic radiations Cell phones Cellular Cellular phones Computational modeling Dirichlet problem Ear Equipments and installations Exact sciences and technology FDTD method Heating infrared thermal imaging Maximum power Mobile radiocommunication systems Numerical models Numerical prediction Organs Radiocommunications RF thermal dosimetry Solid modeling Telecommunications Telecommunications and information theory Telephones Temperature measurement |
| Title | Ear Temperature Increase Produced by Cellular Phones Under Extreme Exposure Conditions |
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