Exploring the intricate interaction betwee electromagnetic fields and the human body is essential for industrial and health applications and to do this, computational dosimetry serves as a robust tool for numerically assessing human exposure. By addressing limitations in existing whole-body female model, the objective of this work is to create a realistic and enhanced female breast model and then highlight the need to consider realistic shapes when analyzing the influence of the breast on specific absorption rate induced by a numerical plane wave at 2.45 GHz.
Enhancing female breast modelling: advanced strategies in the case study of a plane wave exposure / Dolciotti, Noemi; Colella, Micol; D’Agostino, Simona; Apollonio, Francesca; Liberti, Micaela. - (2024), pp. 105-107. (Intervento presentato al convegno 2024 IEEE MTT-S International Microwave Biomedical Conference (IMBioC) tenutosi a Montreal; Canada) [10.1109/IMBioC60287.2024.10590407].
Enhancing female breast modelling: advanced strategies in the case study of a plane wave exposure
Dolciotti Noemi
;Colella Micol;Simona D’Agostino;Francesca Apollonio;Micaela Liberti
2024
Abstract
Exploring the intricate interaction betwee electromagnetic fields and the human body is essential for industrial and health applications and to do this, computational dosimetry serves as a robust tool for numerically assessing human exposure. By addressing limitations in existing whole-body female model, the objective of this work is to create a realistic and enhanced female breast model and then highlight the need to consider realistic shapes when analyzing the influence of the breast on specific absorption rate induced by a numerical plane wave at 2.45 GHz.| File | Dimensione | Formato | |
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