高速机动平台SAR成像PRF设计方法

杨 琳; $2; 汪 洋; 胡 虹

引用本文:	杨琳，朱国辉，汪洋，胡虹. 高速机动平台SAR成像PRF设计方法[J]. 雷达科学与技术, 2024, 22(5): 524-531.[点击复制]
	YANG Lin, ZHU Guohui, WANG Yang, HU Hong. PRF Design Method for SAR Imaging of High⁃Speed Maneuvering Platform[J]. Radar Science and Technology, 2024, 22(5): 524-531.[点击复制]

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高速机动平台SAR成像PRF设计方法
杨琳，朱国辉，汪洋，胡虹
中国电子科技集团公司第三十八研究所孔径阵列与空间探测安徽省实验室，安徽合肥 230088

摘要:

在高速机动平台合成孔径雷达（Synthetic Aperture Radar， SAR）成像系统中，现有脉冲重复频率（Pulse Repetition Frequency， PRF）设计方法基于方位向信号带宽计算出的下限值过高，且忽视了雷达的工作占空比因素。针对上述问题，首先推导了一组避开发射脉冲干扰、平台正下方回波干扰以及距离向模糊等因素的关联PRF和雷达工作占空比的约束方程，然后提出了一种距离向分段SAR成像处理情况下的PRF下限值设计方法。仿真结果表明，在机动平台高速运动大前斜视聚束SAR成像时所提方法能够得到较小的PRF下限值，有效扩展了PRF可选择的范围，可以更好地满足实际工程应用。

关键词: 机动平台合成孔径雷达脉冲重复频率距离模糊方位模糊

DOI：DOI:10.3969/j.issn.1672-2337.2024.05.007

分类号:TN957

基金项目:陆装预研基金（No.30105030203）

PRF Design Method for SAR Imaging of High⁃Speed Maneuvering Platform

YANG Lin, ZHU Guohui, WANG Yang, HU Hong

Key Laboratory of Aperture Array and Space Application, the 38th Research Institute of China Electronics Technology Group Corporation, Hefei 230088, China

Abstract:

In the synthetic aperture radar （SAR） imaging system of high?speed maneuvering platform, the existing design methods of pulse repetition frequency （PRF） have some shortcomings including that the lower bound for the PRF calculated based on the azimuth signal bandwidth is too high, and the factor of radar’s duty ratio is neglected. In view of the above problems, firstly, a set of constraint equations that related to PRF and duty ratio are derived to avoid the factors such as transmitting pulse interference, echo interference directly below the platform and range ambiguity. Then, a new design method for the lower bound of PRF in the case of range sectioned SAR imaging is proposed. The simulation results show that the proposed method can achieve a smaller PRF lower limit when highly squinted spotlight SAR imaging seeker moves at a high speed, which effectively expands the range of PRF selection and can better meet the need of practical engineering applications.

Key words: maneuvering platform synthetic aperture radar （SAR） pulse repetition frequency（PRF） range ambiguity azimuth ambiguity