Publication Date:
2015
abstract:
This paper proposes a numerical assessment of brain stroke follow-up via differential Microwave Imaging. The aim is to follow the evolution of the patient's stroke growth and location, in order to support decisions in the clinical treatment. We present a fully 3D algorithm for Differential Microwave Imaging with arbitrary illuminations for which the vector nature of the equations is conserved, thus not limited to the simple cases of TE or TM excitations. Thanks to the effectiveness and flexibility of the adopted forward modelling tool, the approach can handle complex scenarios and large grids.
Iris type:
04.01 Contributo in Atti di convegno
Keywords:
brain; inverse problems; microwave im; numerical analysis; singular value decomposition; brain stroke follow-up; differential microwave imaging; forward modelling tool; inverse scattering algorithm; numerical assessment; volume integral equation formulation; Image reconstruction; Integral equations; Mathematical model; Microwave imaging; Microwave theory and techniques; Monitoring
List of contributors:
Scapaticci, Rosa; Crocco, Lorenzo
Book title:
Electromagnetics in Advanced Applications (ICEAA), 2015 International Conference on