This paper reports some recent advancements of the SIEM Unit of Genoa in the development of a microwave imaging system for brain stroke detection. In the proposed approach, the inverse scattering problem is solved by using a quantitative inversion procedure based on an inexact-Newton/conjugate-gradient scheme in Banach spaces. Numerical and experimental results obtained with a preliminary experimental setup are reported.
Quantitative microwave brain stroke imaging: Inversion procedure and preliminary experimental results
Bisio, Igor;Estatico, Claudio;Fedeli, Alessandro;Lavagetto, Fabio;Mancardi, Gian Luigi;Pastorino, Matteo;Randazzo, Andrea;Sciarrone, Andrea;Tavanti, Emanuele
2018-01-01
Abstract
This paper reports some recent advancements of the SIEM Unit of Genoa in the development of a microwave imaging system for brain stroke detection. In the proposed approach, the inverse scattering problem is solved by using a quantitative inversion procedure based on an inexact-Newton/conjugate-gradient scheme in Banach spaces. Numerical and experimental results obtained with a preliminary experimental setup are reported.
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