Lorenzo Crocco scite author profile

Abstract-The adoption of microwave imaging as a tool for noninvasive monitoring of brain stroke has recently gained increasing attention. In this respect, the paper aims at providing a twofold contribution. First, we introduce a simple design tool to devise guidelines to properly set the working frequency as well as to choose the optimum matching medium needed to facilitate the penetration of the probing wave into the head. Second, we propose an imaging strategy based on a modified formulation of the linear sampling method, which allows a quasi real time monitoring of the disease's evolution. The accuracy of the design guidelines and performance of the imaging strategy are assessed through numerical examples dealing with 2D anthropomorphic phantoms.

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The Linear Sampling Method as a Way to Quantitative Inverse Scattering

Crocco

Catapano

Donato

et al. 2012

IEEE Trans. Antennas Propagat.

131

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OnSimple Methodsfor Shape Reconstruction of Unknown Scatterers

Catapano

Crocco

Isernia

2007

IEEE Trans. Antennas Propagat.

156

119

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On Quantitative Microwave Tomography of Female Breast

Catapano¹,

Donato²,

Crocco³

et al. 2009

PIER

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Abstract-Microwave tomography deserves attention in biomedical imaging, owing to its potential capability of providing a morphological and functional assessment of the inspected tissues. However, such a goal requires the not trivial task of solving a non linear inverse scattering problem. In this paper, the factors affecting the complexity of the inverse problem are exploited to trace guidelines aimed at setting the matching fluid, the frequency range and the number of probes in such a way that the dielectric parameters of female breast tissues can be reliably retrieved. Examples, concerning 2D realistic numerical phantoms obtained by NMR images, are given to asses a posteriori the effectiveness of the proposed guidelines.

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Lorenzo Crocco

A Feasibility Study on Microwave Imaging for Brain Stroke Monitoring

The Linear Sampling Method as a Way to Quantitative Inverse Scattering

OnSimple Methodsfor Shape Reconstruction of Unknown Scatterers

On Quantitative Microwave Tomography of Female Breast

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