TMSST-RID：基于同步萃取的目标定向合成孔径雷达-合成孔径雷达成像方法

IF 4.2 2区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Computational Imaging Pub Date : 2024-09-27 DOI:10.1109/TCI.2024.3468032

Zhifeng Xie;Lei Cui;Qingyuan Shen;Xiaoqing Wang;Peiqing Yang;Xingyi Su;Haifeng Huang

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引用次数: 0

摘要

合成孔径雷达（SAR）是用于目标监视的一种重要的高分辨率雷达系统。然而，目标运动会导致 SAR 图像的回波和失焦产生时变多普勒频率。为了获得聚焦的目标图像，需要应用反 SAR 合成孔径雷达 (ISAR) 算法：将图像反转回回波，并使用 ISAR 成像算法进行聚焦。在 SAR-ISAR 成像过程中，杂波会严重影响目标聚焦效果。为了在存在严重海杂波干扰的情况下提高船舶目标的 SAR-ISAR 成像质量，本文提出了一种基于低秩稀疏分解和目标导向多同步queezing 变换（TMSST-RID）的测距瞬时多普勒方法，该方法可以在抑制杂波的同时增强目标。利用低阶稀疏分解法将目标区域与杂波区域分离。然后，在时频（TF）分析中，我们提出的 TMSST 方法利用目标区域的先验性来提高 SAR/ISAR 图像的信噪比（SCR）。与传统的 TF 变换相比，所提出的 TMSST 通过锐化 TF 目标表示来增强目标，同时避免杂波增强。通过使用模拟和真实雷达数据对海面杂波中的船舶目标进行性能评估，证明了这种 SAR/ISAR 成像方法的优越性。

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TMSST-RID: A Target-Oriented SAR-ISAR Imaging Method Based on Synchrosqueezing

Synthetic aperture radar (SAR) is an important high-resolution radar system for target surveillance. However, target motion causes a time-varying Doppler frequency in echo and defocused SAR images. To obtain a focused target image, the inverse SAR synthetic aperture radar (ISAR) algorithm is applied: the image is inverted back to the echo and focused using the ISAR imaging algorithm. Clutter significantly impacts the target focusing effect during the SAR-ISAR imaging process. To improve the SAR-ISAR imaging quality of ship targets in the presence of severe sea clutter interference, this article proposes a range instantaneous Doppler method based on the low-rank sparse decomposition and target-oriented multisynchrosqueezing transform (TMSST-RID), which can enhance the target while suppressing clutter. The target area is separated from the clutter area using the low-rank sparse decomposition method. Then, in the time–frequency (TF) analysis, our proposed TMSST method utilizes the prior of the target area to improve the signal-to-clutter ratio (SCR) of the SAR/ISAR image. Compared with the traditional TF transformation, the proposed TMSST enhances the target by sharpening the TF target representation while simultaneously avoiding clutter enhancement. The superiority of this SAR/ISAR imaging method is demonstrated in a performance evaluation using simulated and real radar data for ship targets in sea clutter.

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来源期刊

IEEE Transactions on Computational Imaging Mathematics-Computational Mathematics

CiteScore

8.20

自引率

7.40%

发文量

期刊介绍： The IEEE Transactions on Computational Imaging will publish articles where computation plays an integral role in the image formation process. Papers will cover all areas of computational imaging ranging from fundamental theoretical methods to the latest innovative computational imaging system designs. Topics of interest will include advanced algorithms and mathematical techniques, model-based data inversion, methods for image and signal recovery from sparse and incomplete data, techniques for non-traditional sensing of image data, methods for dynamic information acquisition and extraction from imaging sensors, software and hardware for efficient computation in imaging systems, and highly novel imaging system design.