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ISAR imaging for micromotion targets using the hierarchical Bayesian prior

机译：使用分层贝叶斯先前的MicroMotion目标的ISAR成像

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The micromotion of structures in a target may introduce a micro-Doppler (m-D) effect in the inverse synthetic aperture radar (ISAR) imaging, which contaminates the main body image of the classical range Doppler algorithm (RDA). This paper proposes a novel imaging method for micromotion targets, which assigns a hierarchical Bayesian prior to the element in the range profile, for the purpose of promoting the sparsity and maintaining the continuity pattern along the slow time dimension. To overcome the intractability of the posterior distribution, the Gibbs sampler is utilized to achieve the Bayesian inference. Subsequently, the range profile can be estimated from the expectation of the conditional posterior distribution, then a clear ISAR image can be obtained after cross compression. Experimental results validate the performance of the proposed method.

机译：目标中的结构的微调可以在逆合孔径雷达（ISAR）成像中引入微多普勒（M-D）效应，其污染了经典范围多普勒算法（RDA）的主体图像。本文提出了一种用于微型靶标的微型成像方法，其在范围轮廓中在元件之前分配分层贝叶斯，以促进稀疏性并保持沿着慢速时间尺寸的连续性图案。为了克服后部分布的难以动力，GIBBS采样器用于实现贝叶斯推理。随后，可以从条件后部分布的期望估计范围轮廓，然后在交叉压缩之后可以获得透明的ISAR图像。实验结果验证了所提出的方法的性能。

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《Asia-Pacific Conference on Synthetic Aperture Radar 》|2015年||共5页
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作者
Lin Sun; Tianyun Wang; Xinfei Lu; Weidong Chen;
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中图分类雷达 ;
关键词
Bayes methods; Doppler radar; Markov processes; Monte Carlo methods; image motion analysis; inference mechanisms; maximum likelihood estimation; radar imaging; statistical distributions; synthetic aperture radar; Bayesian inference; Gibbs sampler; ISAR imaging; hierarchical Bayesian prior; inverse synthetic aperture radar imaging; microDoppler effect; posterior distribution; range Doppler algorithm; target structure micromotion; Bayes methods; Doppler effect; Estimation; Image coding; Imaging; Radar imaging; Yttrium; Bayesian priors; Inverse synthetic aperture radar (ISAR) imaging; micro-Doppler (m-D) effect; range profile;

机译：贝叶斯方法;多普勒雷达;马尔可夫进程;蒙特卡罗方法;图像运动分析;推理机制;最大似然估计;雷达成像;统计分布;合成孔径雷达;贝叶斯推断;吉布斯采样器;ISAR成像;逆合成孔径雷达成像;微跑器效果;后部分布;范围多普勒算法;目标结构微观;贝叶斯方法;多普勒效应;估计;图像编码;成像;雷达成像;雷达成像;玉米叶片;逆合孔径雷达（ISAR）成像;微多普勒（MD）效果;范围剖面;

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专利

1. A Novel ISAR Imaging Algorithm for Micromotion Targets Based on Multiple Sparse Bayesian Learning [J] . Liu H., Jiu B., Liu H., IEEE Geoscience and Remote Sensing Letters . 2014 ,第10期

机译：基于多重稀疏贝叶斯学习的微运动目标ISAR成像新算法
2. Joint Sparsity-Based ISAR Imaging for Micromotion Targets [J] . Lin Sun, Xinfei Lu, Weidong Chen IEEE Geoscience and Remote Sensing Letters . 2016 ,第11期

机译：基于联合稀疏性的ISAR微运动目标成像
3. Micro-Doppler Signature Extraction and ISAR Imaging for Target With Micromotion Dynamics [J] . Li K., Liang X., Zhang Q., Geoscience and Remote Sensing Letters, IEEE . 2011 ,第3期

机译：具有微动动力学的目标微多普勒签名提取和ISAR成像
4. ISAR imaging for micromotion targets using the hierarchical Bayesian prior [C] . Lin Sun, Tianyun Wang, Xinfei Lu, Asia-Pacific Conference on Synthetic Aperture Radar . 2015

机译：使用分层贝叶斯先验对微运动目标进行ISAR成像
5. A Bayesian hierarchical model with SNP-level functional priors applied to a PWAS. [D] . Huang, Weizi. 2010

机译：将具有SNP级功能先验的贝叶斯层次模型应用于PWAS。
6. A RPCA-Based ISAR Imaging Method for Micromotion Targets [O] . Liangyou Lu, Peng Chen, Lenan Wu 2020

机译：基于RPCA的微动目标ISAR成像方法
7. Joint Segmentation and Deconvolution of Ultrasound Images Using a Hierarchical Bayesian Model Based on GeneralizedudGaussian Priors [O] . Zhao Ningning, Basarab Adrian, Kouamé Denis, 2016

机译：基于广义 ud的分层贝叶斯模型对超声图像进行联合分割和去卷积高斯先验
8. Classification of Targets in SAR Images Using ISAR Data [R] . De Wit, J. J. , Dekker, R. J. , Van Den Broek, A. C. 2005

机译：利用IsaR数据分类saR图像中的目标

ISAR imaging for micromotion targets using the hierarchical Bayesian prior

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