Emanuele Tavanti scite author profile

In this paper, a numerical study devoted to evaluate the application of a microwave imaging method for brain stroke detection is described. First of all, suitable operating conditions for the imaging system are defined by solving the forward electromagnetic scattering problem with respect to simplified configurations and analyzing the interactions between an illuminating electromagnetic wave at microwave frequencies and the biological tissues inside the head. Then, preliminary inversion results are obtained by applying an imaging procedure based on an iterative Gauss-Newton scheme to a realistic model of the human head. The proposed imaging algorithm is able to deal with the nonlinear and ill-posed problem associated to the integral equations describing the inverse scattering problem. The aim of the inversion procedure is related to the determination of the presence of a hemorrhagic brain stroke by retrieving the distributions of the dielectric parameters of the human tissues inside a slice of the head model

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Three-Dimensional Microwave Imaging in $L^{p}$ Banach Spaces: Numerical and Experimental Results

Estatico

Pastorino

Randazzo

et al. 2018

IEEE Trans. Comput. Imaging

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Cost-Efficient FMCW Radar for Multi-Target Classification in Security Gate Monitoring

et al. 2021

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A Phaseless Microwave Imaging Approach Based on a Lebesgue-Space Inversion Algorithm

Estatico

Fedeli

Pastorino

et al. 2020

IEEE Trans. Antennas Propagat.

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A Short-Range FMCW Radar-Based Approach for Multi-Target Human-Vehicle Detection

Tavanti

Rizik

Fedeli

et al. 2022

IEEE Trans. Geosci. Remote Sensing

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In the present paper, a new microwave-radar-based technique for short-range detection and classification of multiple human and vehicle targets crossing a monitored area is proposed. This approach, which can find applications in both security and infrastructure surveillance, relies upon the processing of the scattered-field data acquired by low-cost off-the-shelf components, i.e., a 24 GHz Frequency Modulated Continuous Wave radar module and a Raspberry Pi mini-PC. The developed method is based on an ad-hoc processing chain to accomplish the automatic target recognition task, which consists of blocks performing clutter and leakage removal with an IIR filter, clustering with a DBSCAN approach, tracking using a Benedict-Bordner α-β filter, features extraction, and finally classification of targets by means of a -Nearest Neighbor algorithm. The approach is validated in real experimental scenarios, showing its capabilities in correctly detecting multiple targets belonging to different classes (i.e., pedestrians, cars, motorcycles, and trucks).

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