期刊
IEEE TRANSACTIONS ON COMPUTATIONAL IMAGING
卷 9, 期 -, 页码 210-223出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TCI.2023.3248942
关键词
Three-dimensional displays; Imaging; Coherence; Optimization; Radar imaging; Interferometry; Scattering; ISAR; pol-InISAR; polarimetry; interferometry; In-SAR; 3D imaging; non-cooperative target; Tank-72
A new Pol-InISAR 3D imaging method is proposed for non-cooperative targets, combining interferometric phase information and 2D ISAR imaging. By exploiting full-polarimetry information, the optimal polarimetric combination is selected to obtain the highest coherence, reducing phase estimation error and enabling accurate 3D imaging. Simulated and real datasets are used to validate the proposed approach.
A new Polarimetric Interferometry Inverse Synthetic Aperture Radar (Pol-InISAR) 3D imaging method for non-cooperative targets is proposed in this paper. 3D imaging of non-cooperative targets becomes possible by combining additional information of interferometric phase along with conventional 2D ISAR imaging. In the previously reported single-polarimetry InISAR based 3D imaging, only a single-channel based interferometric phase is available that can be exploited to reconstruct the 3D ISAR image. This limits the ability to obtain a full target's scattering response and therefore limits the estimation of an accurate interferometric phase. To overcome this constraint, full-polarimetry information is being exploited in this paper, which allows to select the optimal polarimetric combination through which the highest coherence can be obtained. A higher coherence leads to a reduction (optimally a minimization) of the phase estimation error. Consequently, with an optimal phase estimation, an accurate 3D imaging of the target is possible. To validate this proposed Pol-InISAR based 3D imaging approach, both simulated and real datasets are taken under consideration.
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