An MTRC-AHP Compensation Algorithm for Bi-ISAR Imaging of Space Targets

Yuan Zhengkun; Wang Junling; Zhao Lizhi; Gao Meiguo

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An MTRC-AHP Compensation Algorithm for Bi-ISAR Imaging of Space Targets

机译：用于空间目标的双ISAR成像的MTRC-AHP补偿算法

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摘要

For bistatic inverse synthetic aperture radar (Bi-ISAR) imaging of space targets, the impacts of scatterers' migration through resolution cell (MTRC) and azimuth high-order phase (AHP) are becoming more severe, especially for a long coherent processing interval (CPI). In this paper, the movement of a scatterer is modeled as a quartic function under the restriction of the space target orbit, then an MTRC-AHP compensation algorithm is proposed. A fourth-order keystone transform is introduced to remove the MTRC firstly, then the residual AHP terms are compensated gradually via the azimuth compensation phase and fractional Fourier transform (FRFT). The impact of the orbit prediction error of the space target on the algorithm is analyzed theoretically. Numerical simulations illustrate the effectiveness of the proposed method and validation of the theoretical analysis.

机译：对于空间目标的双晶逆合成孔径雷达（Bi-ISAR）成像，散射体迁移通过分辨率小区（MTRC）和方位角高阶相（AHP）的影响变得更加严重，特别是对于长相干处理间隔（ CPI）。在本文中，在空间目标轨道的限制下，散射体的运动被建模为四个函数，然后提出了一种MTRC-AHP补偿算法。引入四阶梯形变换以首先移除MTRC，然后通过方位补偿阶段和分数傅里叶变换（FRFT）逐渐补偿残差AHP术语。从理论上分析了空间目标的轨道预测误差对算法的影响。数值模拟说明了所提出的方法和验证理论分析的有效性。

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来源
《IEEE sensors journal》 |2020年第5期|2356-2367|共12页
作者
Yuan Zhengkun; Wang Junling; Zhao Lizhi; Gao Meiguo;
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作者单位

Beijing Inst Technol Sch Informat & Elect Beijing 100081 Peoples R China;

Beijing Inst Technol Sch Informat & Elect Beijing 100081 Peoples R China;

Minzu Univ China Sch Informat Engn Beijing 100081 Peoples R China;

Beijing Inst Technol Sch Informat & Elect Beijing 100081 Peoples R China;

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原文格式 PDF
正文语种 eng
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关键词
Bistatic inverse synthetic aperture radar (Bi-ISAR); keystone transform; migration through resolution cell (MTRC); high-order phase; space targets;

机译：双面逆合成孔径雷达（Bi-Isar）;梯形转换;通过分辨率单元（MTRC）迁移;高阶相;空间目标;

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2. Near-space hypersonic target coherent integration algorithm based on search compensation [J] . Lin Li, Guohong Wang, Xiangyu Zhang, . 2019,第19期

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3. Simple image intensity compensation (SIMIC) method prior to application of distortion correction algorithms in brain diffusion Tensor Magnetic Resonance Imaging: Validation test for two cost functions of distortion correction algorithms [J] . Lee Dong-Hoon, Lee Do-Wan, Han Bong-Soo International journal of imaging systems and technology . 2015,第4期

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4. Space-Doppler Processing with Adaptive Compensation for Bistatic Multichannel ISAR Imaging of Non-Cooperative Targets [C] . S. Gelli, A. Bacci, M. Martorella, European Radar Conference . 2015

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5. Motion compensation of spotlight SAR images in the presence of unknown translational target motion. [D] . Song, Yi. 1998

机译：在存在未知平移目标运动的情况下，聚光SAR图像的运动补偿。
6. Can iterative reconstruction algorithms replace tube loading compensation in low kVp hepatic CT? Subjective versus objective image quality [O] . Fredrik Holmquist, Marcus Söderberg, Ulf Nyman, 2020

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8. Segmentation Algorithms for Detection of Targets in IR Imagery (Algorithmes de Segmentation pour la Detection de Cibles sur Images IR) [R] . Sevigny, L. 1981

机译：用于检测红外图像中目标的分割算法（算法分割检测可用于图像的IR）

An MTRC-AHP Compensation Algorithm for Bi-ISAR Imaging of Space Targets

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