电子科技大学学报
電子科技大學學報
전자과기대학학보
JOURNAL OF UNIVERSITY OF ELECTRONIC SCIENCE AND TECHNOLOGY OF CHINA
2014年
6期
838-844
,共7页
杨海光%易青颖%李中余%武俊杰%黄钰林%杨建宇
楊海光%易青穎%李中餘%武俊傑%黃鈺林%楊建宇
양해광%역청영%리중여%무준걸%황옥림%양건우
多普勒滤波%多普勒调频率估计%Keystone变换%临近空间慢速平台SAR地面动目标成像
多普勒濾波%多普勒調頻率估計%Keystone變換%臨近空間慢速平檯SAR地麵動目標成像
다보륵려파%다보륵조빈솔고계%Keystone변환%림근공간만속평태SAR지면동목표성상
Doppler filtering%Doppler frequency estimation%keystone transform%near-space slow SAR ground moving target imaging
临近空间慢速平台SAR具有生存能力强、持续工作时间长、机动性能好等特点。该文提出了一种临近空间慢速平台SAR地面动目标检测与成像方法。由于平台运动速度较慢,地面静止杂波多普勒展宽较窄,有利于将地面杂波与动目标回波进行分离。首先利用多普勒滤波器实现地面动目标回波与静止杂波的分离,提取出动目标回波;然后将一阶Keystone变换与变分辨多普勒调频率估计方法相结合,在动目标速度未知的情况下完成距离走动校正和距离弯曲校正,解决了动目标回波距离徙动校正难的问题。利用估计出的多普勒调频率设计出方位压缩函数进行方位聚焦,从而完成动目标的检测与成像。该方法不仅适用于地面慢速运动目标,同时也适用于快速运动目标。计算机仿真验证了该方法的有效性。
臨近空間慢速平檯SAR具有生存能力彊、持續工作時間長、機動性能好等特點。該文提齣瞭一種臨近空間慢速平檯SAR地麵動目標檢測與成像方法。由于平檯運動速度較慢,地麵靜止雜波多普勒展寬較窄,有利于將地麵雜波與動目標迴波進行分離。首先利用多普勒濾波器實現地麵動目標迴波與靜止雜波的分離,提取齣動目標迴波;然後將一階Keystone變換與變分辨多普勒調頻率估計方法相結閤,在動目標速度未知的情況下完成距離走動校正和距離彎麯校正,解決瞭動目標迴波距離徙動校正難的問題。利用估計齣的多普勒調頻率設計齣方位壓縮函數進行方位聚焦,從而完成動目標的檢測與成像。該方法不僅適用于地麵慢速運動目標,同時也適用于快速運動目標。計算機倣真驗證瞭該方法的有效性。
림근공간만속평태SAR구유생존능력강、지속공작시간장、궤동성능호등특점。해문제출료일충림근공간만속평태SAR지면동목표검측여성상방법。유우평태운동속도교만,지면정지잡파다보륵전관교착,유리우장지면잡파여동목표회파진행분리。수선이용다보륵려파기실현지면동목표회파여정지잡파적분리,제취출동목표회파;연후장일계Keystone변환여변분변다보륵조빈솔고계방법상결합,재동목표속도미지적정황하완성거리주동교정화거리만곡교정,해결료동목표회파거리사동교정난적문제。이용고계출적다보륵조빈솔설계출방위압축함수진행방위취초,종이완성동목표적검측여성상。해방법불부괄용우지면만속운동목표,동시야괄용우쾌속운동목표。계산궤방진험증료해방법적유효성。
Near-space slow SAR (NSS-SAR) has several advantages such as robust survivability, persistence and flexible maneuvering performance. This paper proposes a NSS-SAR ground moving target detection and imaging method. Since the platform has a slow speed, it is beneficial to separate ground static clutter and ground moving target echo separation. First, Doppler filter is used to separate the spectrum of ground moving target echo from the spectrum of static clutter. After the echo of ground moving target is extracted, first-order Keystone transform and Doppler rate estimation method are combined to accomplish range walk correction and range curvature correction, though motion parameters of ground moving target are unknown. Thus, it provides an approach to solving the difficult problem of correcting range migration of moving target echo. Then, the estimated Doppler rate is used to design azimuth compression function to achieve azimuth focusing. The proposed method is not only suitable for ground slow-moving targets but also fast-moving targets. Computer simulations verify the effectiveness of this method.
