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Millimeter-wave SFCW SAR imaging system based on in-phase signal measurement with simplified transceiver
Author(s) -
Hanjiang Chen,
Zhenyu Long,
Liting Niu,
Zhengang Yang,
Jingsong Liu,
Kejia Wang
Publication year - 2020
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.380266
Subject(s) - synthetic aperture radar , optics , computer science , amplitude , radar imaging , phase noise , transceiver , image quality , signal (programming language) , quadrature (astronomy) , extremely high frequency , phase (matter) , physics , radar , computer vision , telecommunications , wireless , image (mathematics) , quantum mechanics , programming language
A conventional millimeter-wave stepped frequency continuous wave (SFCW) synthetic aperture radar (SAR) imaging system generally utilizes IQ modulation technique to acquire the amplitude and phase of the waves scattered from a target object. Due to measure both in-phase signal and quadrature signal, the transceiver of the conventional system is complicate and costly, and the IQ imbalance problem makes the system difficult to calibrate. To reduce hardware complexity and enhance efficiency-cost ratio, a novel SFCW SAR imaging system only measuring in-phase signal is proposed and demonstrated. For lack of quadrature signal measurement, an algorithm based on Fourier transform is proposed to estimate the amplitude and phase. The ultimate images are obtained through an image-reconstruction algorithm, which uses the estimated amplitude and phase as input parameters. The proposed system is verified by both simulation and experiment, where the frequencies are set from 24GHz to 30GHz. The imaging results with high resolution and low noise are demonstrated. Compared to the conventional system, the image quality of the proposed system is almost identical, but the transceiver of the proposed system is greatly simplified.

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