1. MIMO Radar Calibration and Imagery for Near-Field Scattering Diagnosis.
- Author
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Liu, Yongze, Xu, Xiaojian, and Xu, Guangyao
- Subjects
MIMO radar ,REMOTE-sensing images ,NEAR field communication ,ELECTROMAGNETIC wave scattering ,RADAR cross sections ,IMAGE quality analysis - Abstract
Multiple-input multiple-output (MIMO) radar is an enabling technique for high-resolution imaging, which is especially useful for near-field electromagnetic scattering diagnosis of complex targets. Among others, high sidelobes and radar cross section (RCS) calibration uncertainty are the major challenges for such applications, due to array nonuniformity, imperfect channels, and antenna pattern tapering. These shortcomings prevent a MIMO radar from obtaining high-quality images with enough dynamic range and RCS accuracy. In this paper, we develop a complete solution for these problems. A novel adaptive weighting technique is proposed, where the complex weights are optimized for exact amplitude and phase error calibration of a MIMO array and for azimuth sidelobe reduction. A MIMO filtered backprojection algorithm is developed for image formation with improved RCS calibration accuracy, where propagation path-loss, antenna pattern tapering, and phase distortion due to the near-field spherical wave front are compensated. Both indoor and outdoor field test results are presented to show the high-quality images obtained using the proposed techniques, demonstrating the applicability of a MIMO radar for diagnostic RCS imaging of complex targets. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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