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PIER PIER B PIER C PIER M PIER Letters
2010-08-16
A Simple Processing Approach for Holographic Rascan Data
By
Francesco Soldovieri,

    Dr. Francesco Soldovieri

    Institute for the Electromagnetic Sensing of the Environment (IREA)

    Italy

    Homepage

Andrea Francesco Morabito,

    Prof. Andrea Francesco Morabito

    Department of Informatics, Mathematics, Electronics and Transpor

    University 'Mediterranea' of Reggio Calabria

    Italy

    Homepage

Francesco D'Agostino,

    Dr. Francesco D'Agostino

    Dipartimento di Informatica

    University

    Italy

    Homepage

Sergey Ivashov,

    Dr. Sergey Ivashov

    Institute of Applied Mathematics and Mechanics

    Bauman Moscow State Technical University

    Russia

    Homepage

Vladimir Razevig,

    Dr. Vladimir Razevig

    Fundamental sciences department

    Bauman Moscow State Technical University

    Russia

    Homepage

Igor Vasilyev

    Dr. Igor Vasilyev

    Institute of Applied Mathematics and Mechanics

    Bauman Moscow State Technical University

    Russia

    Homepage

Progress In Electromagnetics Research, Vol. 107, 315-330, 2010
doi:10.2528/PIER10062905
Abstract
This paper presents a reconstruction approach which exploits the field detected by a holographic radar in order to localize and geometrically qualify a set of scattering objects. In particular, thanks to the adoption of the Kirchhoff Approximation, the problem is formulated as a linear inverse one wherein the unknown function is the characteristic function accounting for the support (location and geometry) of the target(s). The reconstruction performances of the approach have been investigated through an accurate numerical analysis, and an experimental validation has also been performed with the aim of testing the effectiveness and the practical relevance of the proposed method.
Citation
Francesco Soldovieri, Andrea Francesco Morabito, Francesco D'Agostino, Sergey Ivashov, Vladimir Razevig, and Igor Vasilyev, "A Simple Processing Approach for Holographic Rascan Data," Progress In Electromagnetics Research, Vol. 107, 315-330, 2010.
doi:10.2528/PIER10062905
References

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