Two Factors Influencing Residual Motion Estimation in Airborne SAR Images with MTPT: Two Factors Influencing Residual Motion Estimation in Airborne SAR Images with MTPT

Q2 Physics and Astronomy 雷达学报 Pub Date : 2013-12-27 DOI:10.3724/SP.J.1300.2013.20095
Xue-lian Zhong, Ren-yuan Chen, Ran Yang, Tao Wu
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Abstract

Due to the poor accuracy of navigation systems, deviations of the order of centimeters between the real and measured trajectories, called residual motion errors, frequently occur in SAR images. For airborne SAR systems with very high resolution and airborne repeat-pass SAR interferometry, the residual motion errors must be estimated and compensated. Multi-squint Technique with Point Targets (MTPT) is able to estimate the residual motion errors for an individual SAR image, but errors in the platform velocity and the slant range will deteriorate the accuracy of the method. In this paper, we validate this by performing detailed analysis of the velocity and slant range to residual motion error estimation using both simulated and real SAR data. It is also shown that MTPT is able to estimate the errors in the velocity and slant range, and it is sensitive to the phase error. Therefore, it is advised that the errors in the velocity and slant range should be removed using other precise methods before
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影响MTPT机载SAR图像剩余运动估计的两个因素:影响MTPT机载SAR图像剩余运动估计的两个因素
由于导航系统的精度较差,在SAR图像中经常出现实际和测量轨迹之间的厘米量级的偏差,称为残余运动误差。对于非常高分辨率的机载SAR系统和机载重复通道SAR干涉,必须对残余运动误差进行估计和补偿。点目标多斜视技术(MTPT)能够估计单幅SAR图像的残余运动误差,但平台速度和倾斜范围的误差会降低该方法的精度。在本文中,我们通过使用模拟和真实的SAR数据对速度和倾斜范围进行详细的分析来验证这一点。结果表明,MTPT能够估计速度和倾斜范围内的误差,并且对相位误差敏感。因此,建议在此之前使用其他精确的方法去除速度和倾斜范围的误差
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来源期刊
雷达学报
雷达学报 Physics and Astronomy-Instrumentation
CiteScore
4.10
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0.00%
发文量
882
期刊介绍: Information not localized
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