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W2011485943 abstract "Children are more and more using wireless communication systems. This growth has strengthened public concern and has highlighted the need to assess the radio frequency (RF) exposure of children. In dosimetry, taking advantage of the improvement of High Performance Calculation systems, great efforts have been carried out to improve the numerical tools and human models used to assess the Specific Absorption Rate (SAR). This paper analyses progress in building child and foetus models for numerical dosimetry purpose. The simulation results, in terms of Specific Absorption Rate over 1 and 10 g of tissues, in specific organs such as brain and averaged over the whole body, are reported and analysed. The results show that compliance methods used nowadays to certify phones are valid for children. The studies also show that specific tissues such as peripheral brain tissues can have higher exposure with children than with adults. Studies performed with plane waves as sources and whole body children models show that the whole body SAR of children can be higher than the WBSAR of adults and that the compliance to ICNIRP reference levels does not guarantee the compliance to ICNIRP basic restrictions. Dealing with the foetus models and dielectric properties great efforts have been made. Preliminary results show that the foetus exposure is often lower than the mother exposure, with an important influencing parameter: the foetus position in the uterus." @default.
W2011485943 created "2016-06-24" @default.
W2011485943 creator A5010820185 @default.
W2011485943 creator A5026910904 @default.
W2011485943 creator A5042438182 @default.
W2011485943 creator A5056808144 @default.
W2011485943 date "2011-12-01" @default.
W2011485943 modified "2023-10-10" @default.
W2011485943 title "Numerical dosimetry dedicated to children RF exposure" @default.
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W2011485943 doi "https://doi.org/10.1016/j.pbiomolbio.2011.10.002" @default.
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