Speaker
Micaela Liberti
Description
In this study, we assess the possibility that, by leveraging on the limitation in the Degrees of Freedom (DOFs) necessary to accurately describe fields within dielectric bodies (i.e., human body), it is possible to implement a fast algorithm for induced E field computation and specific absorption rate (SAR) evaluation in the far and radiative near-field regime of an arbitrary source, given its Plane Wave Expansion (PWE). If source data of a complex system is available, e.g., through suitable characterization techniques based on inverse source reconstruction, together with its relative position and orientation, this method could enable real-time numerical dosimetry, especially useful in HF - VHF and low UHF bands.
