Experimental Phase-Encoded Linear Sampling Method Imaging With a Single Transmitter and Receiver

The phase-encoded linear sampling method (PE-LSM) is an inverse scattering technique for reconstructing the shape of a conducting target from scattered electric fields. It is a variant of the well-known linear sampling method (LSM), which solves the nonlinear shape reconstruction problem using linea...

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Veröffentlicht in:	IEEE Open Journal of Antennas and Propagation 2024-08, Vol.5 (4), p.942-957
Hauptverfasser:	Burfeindt, Matthew J., Alqadah, Hatim F., Ziegler, Scott
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Sprache:	eng
Schlagworte:	Apertures Array signal processing beamforming Geometry Image reconstruction Imaging inverse scattering Receivers Shape
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container_title	IEEE Open Journal of Antennas and Propagation
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creator	Burfeindt, Matthew J. Alqadah, Hatim F. Ziegler, Scott
description	The phase-encoded linear sampling method (PE-LSM) is an inverse scattering technique for reconstructing the shape of a conducting target from scattered electric fields. It is a variant of the well-known linear sampling method (LSM), which solves the nonlinear shape reconstruction problem using linear optimization. The PE-LSM mitigates the primary obstacle to practical imaging via LSM-based processing - its need for copious multistatic-multiview transmit-receive channels. In this study, we evaluate the PE-LSM using experimental data. We collect synthetic aperture data in an anechoic chamber using only a single transmit-receive channel. With the aid of a monostatic-to-multistatic transform, we generate reconstructions of each target via the PE-LSM. The results evince significant improvements in fidelity to the true target geometries compared to imagery generated by both conventional LSM processing and a conventional backprojection-based radar approach.
doi_str_mv	10.1109/OJAP.2024.3393717
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subjects	Apertures Array signal processing beamforming Geometry Image reconstruction Imaging inverse scattering Receivers Shape
title	Experimental Phase-Encoded Linear Sampling Method Imaging With a Single Transmitter and Receiver
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