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一种基于子孔径自聚焦的高频运动误差估计和补偿方法

张双喜 孙光才 周峰 刘艳阳 邢孟道

张双喜, 孙光才, 周峰, 刘艳阳, 邢孟道. 一种基于子孔径自聚焦的高频运动误差估计和补偿方法[J]. 电子与信息学报, 2010, 32(12): 3013-3017. doi: 10.3724/SP.J.1146.2010.00119
引用本文: 张双喜, 孙光才, 周峰, 刘艳阳, 邢孟道. 一种基于子孔径自聚焦的高频运动误差估计和补偿方法[J]. 电子与信息学报, 2010, 32(12): 3013-3017. doi: 10.3724/SP.J.1146.2010.00119
Zhang Shuang-Xi, Sun Guang-Cai, Zhou Feng, Liu Yan-Yang, Xing Meng-Dao. A Method of Based on Sub-aperture Autofocus to Estimate the High-frequency Motion-error and Compensation[J]. Journal of Electronics and Information Technology, 2010, 32(12): 3013-3017. doi: 10.3724/SP.J.1146.2010.00119
Citation: Zhang Shuang-Xi, Sun Guang-Cai, Zhou Feng, Liu Yan-Yang, Xing Meng-Dao. A Method of Based on Sub-aperture Autofocus to Estimate the High-frequency Motion-error and Compensation[J]. Journal of Electronics and Information Technology, 2010, 32(12): 3013-3017. doi: 10.3724/SP.J.1146.2010.00119

一种基于子孔径自聚焦的高频运动误差估计和补偿方法

doi: 10.3724/SP.J.1146.2010.00119
基金项目: 

国家部委基金和教育部博士学科点专项科研基金(200807010002)资助课题

A Method of Based on Sub-aperture Autofocus to Estimate the High-frequency Motion-error and Compensation

  • 摘要: 采用现有的运动补偿方法,通过多次迭代,理论上可以将SAR成像中运动误差的低频分量补偿掉,但对高频分量是无法进行估计和补偿的,最终会造成当SAR平台运动不稳定时,无法进行高分辨成像。该文针对这一问题,提出了在进行常规运动补偿后对方位数据进行子孔径高频误差分量估计和补偿的方法。这种方法不仅能获得比传统运动补偿方法更好的成像效果,而且运算量也有所减小。仿真和实测数据的处理结果证实了该文方法可以对高频运动误差进行有效性的补偿。
  • Carrara W G, Goodman R S, and Majewski R M. Spotlight Synthetic Aperture Radar: Signal Processing Algorithms [M]. Boston: MA, Artech House, 1995: 245-254.[2]保铮,邢孟道,王彤. 雷达成像技术. 北京:电子工业出版社,2005, 第6章.[3]Prats P, Cmara de Macedo A, Reigber K A, Scheiber R, and Mallorqui J J. Comparison of topography and aperture-dependent motion compensation algorithms for airborne SAR. IEEE Geoscience and Remote Sensing Letters. 2007, 4(3): 349-353.[4]Yue Yang, Zhang Xiao-ling, and Jun Shi. Motion compensation for translational variant bistatic SAR using auto-correlation variance. IET International Radar Conference, Guilin, 2009: 1-4.[5]An Dao-xiang.[J].Huang Xiao-tao, and Zhou Zhi-min. Two-step motion compensation of range migration algorithm for airborne spotlight SAR imaging. Asian-Pacific Conference on Synthetic Aperture Radar, Xian.2009,:-Zheng Ying-xi and L Ming, A design of motion compensation for high resolution imaging of missleborne SAR. International Conference on Communications, Circuits and Systems, Milpitas, 2009: 427-430.[6]Kennedy T A. Strapdown inertial measurement units for motion compensation for synthetic aperture radars. IEEE National Radar Conference, Michigan, 1988(10): 32-35.[7]Xing Meng-dao, Jiang Xiu-wei, and Wu Ren-biao. Motion Compensation for UAV SAR based on raw radar data[J].IEEE Transactions on Geoscience and Remote Sensing.2009, 47(8):2870-2883[8]Wahl D E.[J].Eichel P H, Ghiglia D C, and Jakowatz C V. Phase gradient autofocusA robust tool for high resolution SAR phase correction. IEEE Transactions on Aerospace and Electronic Systems.1994,:-[9]邱晓晖,Heng Wang Cheng Alice, and Yeo Siew Yam. ISAR成像快速最小熵相位补偿方法[J].电子与信息学报.2004, 26(10):1656-1660浏览[10]Qiu Xiao-hui, Heng Wang Cheng Alice, and Yeo Siew Yam. Fast minimum entropy phase compensation for ISAR imaging. Journal of Electronics and Information Techonology, 2004, 26(10): 1656-1660.[11]Kolman J. Image reconstruction and restoration using constrained optimization algorithms. [Ph.D. dissertation], Purdue University, August, 1996.[12]Kolman Jesse and Lockheed Martin. PACE: an autofocus for SAR. IEEE International Radar Conference, Washington. 2005: 310-314.[13]Thomas Kragh J and Alaa Kharbouch A. Monotonic iterative algorithm for minimum-entropy autofocus. IEEE International Conference on Image Processing, Atlanta, 2006: 645-648.
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出版历程
  • 收稿日期:  2010-01-29
  • 修回日期:  2010-05-13
  • 刊出日期:  2010-12-19

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