A Downward-looking Three-dimensional Imaging Method for Airborne FMCW SAR Based on Array Antennas 被引量：2

A Downward-looking Three-dimensional Imaging Method for Airborne FMCW SAR Based on Array Antennas

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摘要 With regard to problems in conventional synthetic aperture radar （SAR）, such as imaging distortion, beam limitation and failure in acquiring three-dimensional （3-D） information, a downward-looking 3-D imaging method based on frequency modulated continuous wave （FMCW） and digital beamforming （DBF） technology for airborne SAR is presented in this study. Downward-looking 3-D SAR signal model is established first, followed by introduction of virtual antenna optimization factor and discussion of equivalent-phase-center compensation. Then, compensation method is provided according to reside video phase （RVP） and slope term for FMCW SAR. As multiple receiving antennas are applied to downward-looking 3-D imaging SAR, range cell migration correction （RCMC） turns to be more complex, and corrective measures are proposed. In addition, DBF technology is applied in realizing cross-track resolution. Finally, to validate the proposed method, magnitude of slice, peak sidelobe ratio （PSLR）, integrated sidelobe ratio （ISLR） and two-dimensional （2-D） contour plot of impulse response function （IRF） of point target in three dimensions are demonstrated. Satisfactory performances are shown by simulation results. With regard to problems in conventional synthetic aperture radar （SAR）, such as imaging distortion, beam limitation and failure in acquiring three-dimensional （3-D） information, a downward-looking 3-D imaging method based on frequency modulated continuous wave （FMCW） and digital beamforming （DBF） technology for airborne SAR is presented in this study. Downward-looking 3-D SAR signal model is established first, followed by introduction of virtual antenna optimization factor and discussion of equivalent-phase-center compensation. Then, compensation method is provided according to reside video phase （RVP） and slope term for FMCW SAR. As multiple receiving antennas are applied to downward-looking 3-D imaging SAR, range cell migration correction （RCMC） turns to be more complex, and corrective measures are proposed. In addition, DBF technology is applied in realizing cross-track resolution. Finally, to validate the proposed method, magnitude of slice, peak sidelobe ratio （PSLR）, integrated sidelobe ratio （ISLR） and two-dimensional （2-D） contour plot of impulse response function （IRF） of point target in three dimensions are demonstrated. Satisfactory performances are shown by simulation results.

作者 HOU Haiping QU Changwen ZHOU Qiang XIANG Yingchun

机构地区 Department of Electronic and Information Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2011年第1期55-64,共10页 中国航空学报（英文版）

基金 Taishan Scholars Program of Shandong Province

关键词 synthetic aperture radar radar imaging frequency modulated continuous wave downward-looking THREE-DIMENSIONAL array antenna digital beamforming synthetic aperture radar radar imaging frequency modulated continuous wave downward-looking three-dimensional array antenna digital beamforming

分类号 TN958.94 [电子电信—信号与信息处理] TS803.4 [轻工技术与工程]

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