Nicola Battisti scite author profile

Inverse synthetic aperture radar (ISAR) images are frequently used in target classification and recognition applications. Nevertheless, the interpretation of ISAR images remains problematic for several reasons. One of these is the fact that the image plane cannot be defined by the user but instead depends on the target's own motions and on its relative position with respect to the radar. In order to overcome the problem of interpreting two-dimensional (2D) ISAR images, a method for three-dimensional (3D) reconstruction of moving targets is presented. This method is based on the use of a dual interferometric ISAR system. The interferometric phases measured from two orthogonal baselines are used to jointly estimate the target's effective rotation vector and the heights of the scattering centers with respect to the image plane. The scattering center extraction from the ISAR image is performed by applying a multichannel CLEAN technique. Finally, a 3D image of the moving target is reconstructed from the 3D spatial coordinates of the scattering centers. The effectiveness and robustness of the proposed algorithm is first proven theoretically and then tested against several radar-target scenarios as well as in the presence of noise

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Intereferometric phase and target motion estimation for accurate 3D reflectivity reconstruction in ISAR systems

Battisti¹

2010

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A multi-sensor wireless solution for indoor thermal comfort monitoring

Torresani¹,

Battisti²,

Maglione³

et al. 2013

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Reduced dimension principal components for STAP

Battisti¹

2013

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STAP for airborne HPRF pulse Doppler radar: developing and testing of algorithm on both simulated and real data

Battisti¹

2008

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Nicola Battisti

3D interferometric ISAR imaging of noncooperative targets

Intereferometric phase and target motion estimation for accurate 3D reflectivity reconstruction in ISAR systems

A multi-sensor wireless solution for indoor thermal comfort monitoring

Reduced dimension principal components for STAP

STAP for airborne HPRF pulse Doppler radar: developing and testing of algorithm on both simulated and real data

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