Migration through resolution cell compensation in ISAR imaging   总被引：5，自引：0，他引：5  

Mengdao Xing Renbiao Wu Jinqiao Lan Zheng Bao 《Geoscience and Remote Sensing Letters, IEEE》2004,1(2):141-144

Range-Doppler (RD) processing is widely used in conventional inverse synthetic aperture radar (ISAR) imaging. The unwanted translational motion of moving targets is compensated by envelope alignment and autofocus. For existing ISAR imaging algorithms, the scatterers' migration through resolution cells (MTRC) caused by the rotational motion is usually ignored. With the improvement of resolution or the increase of target size, MTRC cannot be neglected. In this letter, the keystone formatting algorithm developed in SAR is used for the MTRC compensation in ISAR. Before the keystone formatting, coherent processing must be performed on the raw phase history data. An effective approach is proposed for this kind of coherent processing. Numerical examples are provided to demonstrate the performance of the proposed approach.  相似文献   

Quaternion-Based Transformation for Extraction of Image-Generating Doppler for ISAR     

《Geoscience and Remote Sensing Letters, IEEE》2008,5(4):560-563

Inverse synthetic aperture radar (ISAR) is an imaging technique that is dependent on an object's rotational motion over a coherent processing interval. Maritime vessels and aircraft possess 3-D rotational motion, whereas it is only their ISAR contributing motion that is useful to the ISAR imaging process; the contributing motion consists of the Doppler generating axis and the effective angle of rotation. This letter presents a quaternion-based transformation that converts measured attitude and position data into an object's Doppler generating axis and effective angular rotation rate. This transformation is significant since it isolates the component of the motion that directly influences the ISAR image. It provides an alternative approach that can be used to understand the causes of blurring of most ISAR images of sea vessels as well to identify good imaging intervals for applications such as cooperative ISAR for radar cross section measurement purposes.   相似文献   

Three-Dimensional ISAR Imaging Using a Two-Dimensional Sparse Antenna Array   总被引：1，自引：0，他引：1  

Changzheng Ma Tat Soon Yeo Hwee Siang Tan Jun Wang Baixiao Chen 《Geoscience and Remote Sensing Letters, IEEE》2008,5(3):378-382

Conventional antenna array 3-D inverse synthetic aperture radar (ISAR) imaging method does imaging by first carrying out ISAR imaging for all the different antennas and then using array direction of arrival (DOA) estimation on every scatterer to get the position of that scatterer. The aperture formed by the target's motion is used to separate the scatterers, and the antenna array aperture is used for position measurement. In this letter, a 3-D imaging method based on a combination of sparse array beamforming and ISAR imaging is proposed, where 3-D images are formed by space-time match filtering. The estimation of the target's rotation parameters is also given. Simulation results have shown the effectiveness of the proposed methods.   相似文献   

2D Superresolution ISAR Imaging via Temporally Correlated Multiple Sparse Bayesian Learning     

Xiaowei Hu  Ningning Tong  Xingyu He  Yuchen Wang 《Journal of the Indian Society of Remote Sensing》2018,46(3):387-393

In inverse synthetic aperture radar (ISAR) imaging, the image resolution is always limited by the bandwidth and the observation time. Sparse recovery (SR) is recently proposed to improve the range resolution or cross-range resolution effectively. However, for the two dimensional superresolution case, a SR-induced range cell migration (RCM) occurs among the High-Resolution Range Profiles (HRRPs) and definitely degrades the ISAR image. After that translational motion compensation is completed, the common sparsity of HRRPs is exploited to suppress the RCM in this paper. Furthermore, by taking the temporal correlation of HRRPs into account, an ISAR imaging method based on temporally correlated Multiple Sparse Bayesian Learning is proposed to improve the imaging quality. Simulated data and real data results demonstrate the effectiveness of the proposed method.  相似文献   

加速迭代硬阈值ISAR稀疏成像     

雷大力  洪峻  王宇  费春娇 《遥感学报》2015,19(5):770-779

加速迭代硬阈值(AIHT)作为一种压缩感知(CS)算法,具有计算复杂度低、内存占用小的特点,在较小数目的观测下,经过有限次迭代便能获得较好的重建效果。因此,本文将该算法应用到逆合成孔径雷达(ISAR)稀疏成像,对该方法的具体特征和适用性进行了详细分析。仿真结果表明,在相同信噪比和回波脉冲数条件下,基于AIHT的ISAR成像方法,相比于稀疏贝叶斯算法(SBL),在重建时间上缩短了至少2个量级;相比于迭代加权最小二乘法(IRLS)和平滑l0范数算法,在重建质量上提高了约3倍。经实测数据处理结果验证,在1/4原始脉冲数条件下,该方法仍具有良好的聚焦性能和压低旁瓣效果。  相似文献   

GPS天-地无源双基地雷达探测海面移动目标     

何振宇  陈武  杨扬 《测绘学报》1957,49(12):1523-1534

GNSS卫星作为一种照射源,可与地面接收机构成天-地无源双基地雷达系统,用于海面移动目标探测。但是,海面目标（如船只）反射的GNSS信号能量微弱,常被淹没在背景噪声和干扰信号中。针对这一问题,本文提出利用目标的运动特点聚集目标回波能量的目标探测方法。首先,将船只的运动轨迹看作合成孔径,采用SAR成像技术——距离多普勒算法（range-Doppler algorithm,RDA）实现目标回波能量的压缩聚集,同时抑制干扰信号（如海面杂波）。然后,使用相位梯度自聚焦算法（phase gradient autofocus,PGA）作自聚焦处理,进一步聚集目标回波能量。通过现场试验采集的数据验证了本文算法。试验结果表明,本文方法能够同时聚集多个目标回波能量,精确地估计目标到接收机的距离,并判断目标的移动方向。  相似文献   

ISAR Imaging of a Ship Target Using Product High-Order Matched-Phase Transform     

Yong Wang Yicheng Jiang 《Geoscience and Remote Sensing Letters, IEEE》2009,6(4):658-661

Inverse synthetic aperture radar (ISAR) imaging of a ship target is very important compared with the plane target, and the imaging condition of the ship target is more complicated than that of the plane target due to the complexity of the ship's movement. In this letter, the received signal of a ship target is modeled as a multicomponent cubic phase signal, and the product high-order matched-phase transform is proposed to estimate the parameters of each component. Then, the instantaneous ISAR images can be obtained. Results of real data demonstrate the effectiveness of the new method proposed.  相似文献   

非理想航迹城市建筑群MIMO下视阵列SAR三维仿真          下载免费PDF全文

刘辉  徐青  靳国旺  楼良盛 《武汉大学学报(信息科学版)》2019,44(3):413

在缺少真实下视阵列合成孔径雷达（synthetic aperture radar,SAR）系统而带来数据获取和成像算法研究等困难的当下,下视阵列SAR三维仿真的研究具有重要意义。为了还原载机平台真实的飞行航迹,验证阵列SAR技术在高层建筑物密集城区的地形测绘能力,摒弃传统仿真研究基于匀速直线运动的假设,以高度骤变的城市建筑物为对象,分析构建了多输入多输出（multiple input multiple output,MIMO）下视阵列SAR非理想航迹运动误差模型,提出了非理想航迹城市建筑群MIMO下视阵列SAR三维距离多谱勒成像算法。利用航空平台的航迹与姿态建模仿真技术,以及快速高效的回波仿真技术对成像算法进行了仿真实验,验证了方法的正确性和有效性。  相似文献   

异构环境下的多子阵合成孔径声呐精确后向投影快速成像方法          下载免费PDF全文

钟何平  唐劲松  马梦博  田振  吴浩然 《武汉大学学报(信息科学版)》2022,47(3):405-411

针对多子阵合成孔径声呐精确后向投影成像算法效率低的问题,提出了 一种异构环境下的精确多子阵合成孔径声呐后向投影成像快速方法.在分析精确逐点后向投影成像算法原理的基础上,将脉冲压缩和方位向聚焦过程改造为单指令多线程模式,借助图形处理器(graphics processor unit,GPU)强大的多核计算能力加速成像过程...  相似文献   

一种基于曲线SAR的三维目标特征提取与自聚焦新算法   总被引：5，自引：0，他引：5  

吴仁彪  苏志刚  刘家学  刘杰 《遥感学报》2002,6(6):490-495

曲线合成孔径雷达（Curvilinear Synthetic Aperture Radar,简称曲线SAR）是一种新的三维成像模式，通过让载机作曲线飞行，曲线SAR系统能同时在方位维和高度维形成大的合成孔径。本文提出一种曲线SAR的三维目标特征提取和自聚焦新方法。新方法是建立在一种灵活的接收数据模型之上的参数化的新方法。仿真实验证明了所提方法的有效性。  相似文献   

Optimising the accuracy of a low-cost photogrammetric motion study system     

Albert K. Chong 《The Photogrammetric Record》2004,19(108):296-310

Generally, a low-cost image-based motion study system consists of a set of two or more video imaging cameras and a set of object space control targets. The control targets are required to provide for the computation of exterior parameters of the video frames of objects in motion. Subsequently, the computed exterior orientation parameters are used to compute the position of the motion targets. In general, the accuracy of the motion data is dependent largely on the accuracy of the 3D coordinates of the control targets, the computed camera and lens parameters and the frame rate of the camera. Obviously, it is difficult to improve the frame rate of a low-cost camera; however, the other factors may be optimised analytically. Optimising the accuracy of the control targets is a straightforward process and is discussed briefly in the paper. Optimising the computed camera and lens parameters was the main focus of the research. Consequently, the paper provides the detail of the developed optimising technique. The results show that an optimal principal distance and other lens parameters can be determined by analysing the error of a set of highly accurate object distances. The evaluation shows that the accuracy of the video motion study system can be improved by as much as six times or a reduction of scaling error from 1·06 to 1·01.  相似文献   

Robust ISAR Range Alignment via Minimizing the Entropy of the Average Range Profile   总被引：3，自引：0，他引：3  

Daiyin Zhu Ling Wang Yusheng Yu Qingnian Tao Zhaoda Zhu 《Geoscience and Remote Sensing Letters, IEEE》2009,6(2):204-208

In this letter, a novel global approach to range alignment for inverse synthetic aperture radar (ISAR) image formation is presented. The algorithm is based on the minimization of the entropy of the average range profile (ARP), and the processing chain is capable of exploiting the efficiency of the fast Fourier transform. With respect to the existing global methods, the new one requires no exhaustive search operation and eliminates the necessity of the parametric model for the relative offset among the range profiles. The derivation of the algorithm indicates that the presented methodology is essentially an iterative solution to a set of simultaneous equations, and its robustness is also ensured by the iterative structure. Some alternative criteria, such as the maximum contrast of the ARP, can be introduced into the algorithm with a minor change in the entropy-based method. The convergence and robustness of the presented algorithm have been validated by experimental ISAR data.  相似文献   

稀疏场景目标的距离像峰值聚类分割成像方法     

杨秋  张群  王敏  孙莉 《测绘学报》2015,44(8):900-908

针对海面舰船等具有一定空间稀疏性的合成孔径雷达成像场景,提出了一种稀疏场景目标的距离像峰值聚类分割成像方法。首先采用小波降噪算法对SAR原始回波数据进行预处理,通过距离压缩和距离徙动校正获得不同观测位置的距离像,利用基于二阶差分算子的快速峰值检测算法检测距离像峰值点,对峰值检测结果距离维聚类后方位向成像,实现了距离向能量区间稀疏目标的分割成像;对峰值检测结果距离-方位二维聚类后方位向成像,实现了距离向能量区间与方位向合成孔径时间无耦合稀疏目标的分割成像。仿真结果表明,对海面舰船等具有空间稀疏性的成像场景,所提方法能够实现目标的有效分割成像,不仅在完整保留目标回波信息的同时大幅度地降低了方位向压缩的运算量,而且分割成像结果更有利于目标的快速识别。  相似文献   

A Selective KPCA Algorithm Based on High-Order Statistics for Anomaly Detection in Hyperspectral Imagery   总被引：1，自引：0，他引：1  

《Geoscience and Remote Sensing Letters, IEEE》2008,5(1):43-47

In this letter, a selective kernel principal component analysis (KPCA) algorithm based on high-order statistics is proposed for anomaly detection in hyperspectral imagery. First, KPCA is performed on the original hyperspectral data to fully mine the high-order correlation between spectral bands. Then, the average local singularity (LS) is defined based on the high-order statistics in the local sliding window, which is used as a measure for selecting the most informative nonlinear component for anomaly detection. By the selective KPCA, information on anomalous targets is extracted to maximum extent, and background clutters are well suppressed in the selected component. Finally, the selected component with maximum average LS is used as input for anomaly detectors. Numerical experiments are conducted on real hyperspectral images collected by the airborne visible/infrared imaging spectrometer. The results strongly prove the effectiveness of the proposed algorithm.  相似文献   

Two-Dimensional Spectrum Matched Filter Banks for High-Speed Spinning-Target Three-Dimensional ISAR Imaging   总被引：1，自引：0，他引：1  

《Geoscience and Remote Sensing Letters, IEEE》2009,6(3):368-372

In this letter, a 3-D inversed synthetic aperture radar imaging algorithm for targets in high-speed spinning is proposed based on 2-D spectrum matched filter (MF) banks. Each spectrum MF bank yields a focused slice for its corresponding scatterers. By extracting the spatial parameters from all slices, the 3-D image of the target can be constructed. Numeric simulation confirms the validity of the algorithm.   相似文献   

A Chirp Transform Algorithm for Processing Squint Mode FMCW SAR Data   总被引：2，自引：0，他引：2  

Zhi-Hong Jiang Kan Huang-Fu Jian-Wei Wan 《Geoscience and Remote Sensing Letters, IEEE》2007,4(3):377-381

Frequency-modulated continuous-wave (FMCW) synthetic aperture radar (SAR) is a lightweight cost-effective high-resolution airborne imaging radar. In squint case, the frequency scaling algorithm, which is suitable for processing nonchirped raw data, cannot be used directly in FMCW SAR data processing because of low system sampling frequency. On the other hand, the continuous antenna motion of FMCW SAR can cause serious distortions in the reconstructed images. In this letter, an improved algorithm called the chirp transform algorithm is proposed. When the effects of the residual video phase are negligible, the algorithm uses a chirp transform to perform the time scaling operation to alleviate the sampling frequency problem. It requires only fast Fourier transforms and multiplications. The range cell migration introduced by the continuous motion is also compensated completely in range-Doppler domain. The algorithm performances are analyzed and are supported by point target simulation experiments.  相似文献   

利用二维DLT及光束法平差进行数字摄像机标定   总被引：34，自引：5，他引：34  

张永军  张祖勋  张剑清 《武汉大学学报(信息科学版)》2002,27(6):566-571

利用共线方程和二维DLT之间的对应关系导出了由二维DLT的8个参数表达的主纵线方程式，讨论了主点初值和求解方法，给出了单张像片摄像机参数分解不惟一性及临界序列的证明，详细推导了利用二维DLT参数分解摄像机外方位元素初值的实用算法，论述了利用光束法平差进行摄像机标定的数学模型，实际图像数据实验取得了很好的结果，验证了本文所提出的摄像机标定算法的可行性。  相似文献   

双通道SAR振动目标快速检测   总被引：1，自引：1，他引：0  

周阳  沈爱国  毕大平 《遥感学报》2020,24(9):1143-1156

目标的振动会对雷达回波产生特殊的相位调制,称为微多普勒效应,能够提供对微动目标检测的有利信息,因此对提高SAR(Synthetic Aperture Radar)系统性能具有重要意义。然而,已有的检测算法存在运算量大、抗杂波噪声能力弱和无法适应多振动目标等问题。针对这些问题,本文提出一种对振动目标检测的新算法。该算法利用相位中心天线偏置DPCA(Displaced Phase Center Antenna )对消技术消除杂波,并沿方位向累加DPCA信号来提高算法的抗噪声能力。由于振动目标SAR方位回波的频谱与脉冲序列具有高度相似性,本文算法选择了检测重复脉冲序列的脉冲重复频率PRI(Pulse Repetition Interval )变换法来实现振动目标的检测。仿真实验表明,本文算法能够在强杂波噪声条件下检测振动目标,同时具有准确振动频率估计性能,甚至当同一个单元存在多个振动目标时,本文算法依然适用。仿真中振动目标检测的计算机运行总时间不超过0.6 s,说明本文算法适用于实时检测,通过与GLRT算法和Hough变换算法运算量的比较,证明了本文算法相比于经典算法具有运算量小,检测速度快的优点。  相似文献   

宽视场遥感相机像移速度模型及补偿策略          下载免费PDF全文

李永昌  金龙旭  李国宁  武奕楠  王文华 《武汉大学学报(信息科学版)》2018,43(8):1278-1286

宽视场遥感相机在轨成像期间,受地球自转、卫星颤振、姿态机动等因素影响而产生像移,导致成像质量降低。为此,提出了一种适用于宽视场遥感相机的像移速度模型,并考虑了离轴角对计算精度的影响,推导了离轴三反相机像移速度和偏流角解析式。以某卫星为例,仿真分析了3种典型成像模式下像移速度和偏流角在焦面的分布情况,仿真结果与定性分析结果一致,验证了像移速度模型的正确性。在此基础上,针对侧摆兼具俯仰成像模式,提出了相应的像移补偿策略。补偿效果表明,卫星侧摆35°兼具俯仰35°成像时,采用全局优化偏流角匹配策略能保证整个焦面区域的调制传递函数（modulation transfer function,MTF）均大于0.95（16级）;采用局部优化偏流角匹配策略能保证焦面重点观测目标的MTF大于0.95（96级）;采用提出的像移速度匹配策略在分11组调节行周期情况下,能保证整个焦面区域的MTF均大于0.95（16级）。仿真结果表明,提出的像移补偿策略能有效解决侧摆兼具俯仰成像时的像质下降问题,可为宽视场遥感相机像移补偿提供可靠依据。  相似文献   

后向投影算法的地理坐标系下的合成孔径雷达成像     

李杨寰  金添  宋千  周智敏 《遥感学报》2011,15(4):680-686

传统的机载合成孔径雷达(SAR)一般依赖于GPS/INS组合系统补偿平台的运动误差,并获得高分辨率的图像。GPS获取的地理坐标(即经度,纬度和高度)需要转换为本地的直角坐标,原始雷达数据在这个直角坐标系下才能引入成像及运动补偿算法进行处理,并获得本地直角坐标系下的图像。这种图像是通过局部坐标描述的,对于其他部门是不通用的,因为其他部门需要的是经过全球地理坐标标绘的图像。本文提出了一种由后向投影算法BP(Back Projection)引出的新的SAR成像算法,它直接在地理坐标下处理,可避免坐标转换的过程。而且生成德图像像素均和地理坐标一一对应,能够很方便地被情报或其他部门使用。而且在仿真试验以及外场试验中,证明了本文算法和常规BP算法成像效果是相当的。  相似文献