This work deals with the real-time retrieval of the electromagnetic ( EM ) properties of an inaccessible domain starting from non-invasive measurements. Within this context, deep learning ( DL ) is rapidly emerging as a powerful paradigm to solve inverse scattering ( IS ) and imaging problems on a pixel-basis with unprecedented computational efficiency and accuracy. Accordingly, the main principles and fundamental aspects of the most diffused deep neural network ( DNN ) architectures [i.e., convolutional neural networks ( CNNs )] are briefly summarized, and an overview of the most recent works in this promising field of research is given. Paramount unsolved challenges are finally discussed to indicate some possible lines-of-research to overcome current limitations of DL strategies as applied to IS and imaging.
Deep Learning: A Powerful Framework for the Real-Time Solution of Inverse Scattering Problems / Massa, Andrea; Chen, Xudong; Li, Maokun; Polo, Alessandro; Rosatti, Pietro; Salucci, Marco. - (2021), pp. 2008-2009. (Intervento presentato al convegno 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI) tenutosi a Singapore nel 4th-10th December 2021) [10.1109/APS/URSI47566.2021.9704174].
Deep Learning: A Powerful Framework for the Real-Time Solution of Inverse Scattering Problems
Massa, Andrea;Polo, Alessandro;Rosatti, Pietro;Salucci, Marco
2021-01-01
Abstract
This work deals with the real-time retrieval of the electromagnetic ( EM ) properties of an inaccessible domain starting from non-invasive measurements. Within this context, deep learning ( DL ) is rapidly emerging as a powerful paradigm to solve inverse scattering ( IS ) and imaging problems on a pixel-basis with unprecedented computational efficiency and accuracy. Accordingly, the main principles and fundamental aspects of the most diffused deep neural network ( DNN ) architectures [i.e., convolutional neural networks ( CNNs )] are briefly summarized, and an overview of the most recent works in this promising field of research is given. Paramount unsolved challenges are finally discussed to indicate some possible lines-of-research to overcome current limitations of DL strategies as applied to IS and imaging.| File | Dimensione | Formato | |
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