Archivio Istituzionale della RicercaWith this paper, we will report about the feasibility study of a novel device which will be capable of performing the follow-up of a brain stroke event in the post-acute stage. The underlying technology, used in the device under design, is microwave imaging, which exploits the difference in dielectric properties of tissues. Numerical full-wave simulations, with realistic 3-D phantoms of the human head, will show the potential capabilities of the microwave imaging device.
A feasibility study for cerebrovascular diseases monitoring via microwave imaging / Tobon Vasquez, J. A.; Scapaticci, R.; Turvani, G.; Vacca, M.; Sarwar, I.; Casu, M. R.; Dassano, G.; Joachimowicz, N.; Duchene, B.; Bellizzi, G.; Tedeschi, E.; Crocco, Lorenzo; Vipiana, F.. - ELETTRONICO. - (2017), pp. 1280-1282. (Intervento presentato al convegno 19th International Conference on Electromagnetics in Advanced Applications, ICEAA 2017 tenutosi a Verona (I) nel 2017) [10.1109/ICEAA.2017.8065506].
A feasibility study for cerebrovascular diseases monitoring via microwave imaging
Tobon Vasquez, J. A.;Turvani, G.;Vacca, M.;Sarwar, I.;Casu, M. R.;Dassano, G.;CROCCO, LORENZO;Vipiana, F.
2017
Abstract
With this paper, we will report about the feasibility study of a novel device which will be capable of performing the follow-up of a brain stroke event in the post-acute stage. The underlying technology, used in the device under design, is microwave imaging, which exploits the difference in dielectric properties of tissues. Numerical full-wave simulations, with realistic 3-D phantoms of the human head, will show the potential capabilities of the microwave imaging device.
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https://hdl.handle.net/11583/2704120
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