Microwave Imaging (MI) for detecting inclusions and inhomogeneities within an object penetrable to electromagnetic fields is considered. The system is tailored for objects with non-flat boundary by employing a conformal antenna array arranged in a multistatic/multiview configuration. The development of a non-invasive MI system for objects with non-canonical shapes requires addressing several challenges ranging from hardware design to forward and inverse-scattering algorithms. In this work we present the preliminary steps in the design of such a system, with a particular focus on the system architecture and, more specifically, the antenna layout.
Cuccaro, A., Fedeli, A., Marcelli, R., Ponti, C., Proietti, E., Randazzo, A., et al. (2025). Preliminary Analysis of a Microwave Imaging System for Detecting Inclusions in Non-Planar Hosting Media. In Proceedings 2025 International Conference on Electromagnetics in Advanced Applications (ICEAA). IEEE [10.1109/ICEAA65662.2025.11305773].
Preliminary Analysis of a Microwave Imaging System for Detecting Inclusions in Non-Planar Hosting Media
A. Cuccaro;A. Fedeli;C. Ponti;A. Randazzo;G. Schettini;R. Solimene
2025-01-01
Abstract
Microwave Imaging (MI) for detecting inclusions and inhomogeneities within an object penetrable to electromagnetic fields is considered. The system is tailored for objects with non-flat boundary by employing a conformal antenna array arranged in a multistatic/multiview configuration. The development of a non-invasive MI system for objects with non-canonical shapes requires addressing several challenges ranging from hardware design to forward and inverse-scattering algorithms. In this work we present the preliminary steps in the design of such a system, with a particular focus on the system architecture and, more specifically, the antenna layout.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
