运动干扰站的SAR-GMTI余弦调相转发干扰     

房明星  毕大平  沈爱国 《遥感学报》2016,20(6):1361-1370

针对多通道合成孔径雷达地面动目标显示SAR—GMTI提出一种基于运动干扰站的余弦调相转发干扰方法。该方法利用运动干扰站转发式干扰的成像特性实现方位向扩展,利用余弦调相信号特性实现距离向扩展,将二者有机结合,可同时实现干扰目标在方位向和距离向的2维扩展。以三通道干涉对消技术为例分析了其对GMTI的对抗性能,理论分析和仿真实验表明:该方法对SAR和SAR-GMTI均可产生灵活可控的2维条带状或面状遮盖干扰效果,但由于多通道GMTI对干扰的抑制和对消,干扰目标幅度受正弦调制系数影响将出现增强或削弱。  相似文献   

余弦调相散射波干扰对SAR双通道对消干扰抑制的影响     

张云鹏  毕大平  周阳  张博  房明星 《遥感学报》2019,23(1):99-107

作为多通道合成孔径雷达(SAR)的一种高效便捷的抗干扰方法,SAR多通道对消技术可有效抑制包括散射波干扰在内的多种干扰类型,于是提出采用方位向余弦调相散射波干扰方法来对抗SAR双通道对消的干扰抑制能力。该方法通过对传统散射波干扰慢时间域进行余弦调相,不仅实现了干扰信号的方位向扩展,更使得干扰信号到达各通道之间的相位关系发生严重改变。这种相位差变化会影响干扰对消过程中的自动相位搜索环节,扰乱对消时所需补偿相位的估计结果,进而严重破坏对消后的真实场景成像。以SAR双通道对消系统为例分析了该干扰方法的影响效果,理论分析与实验结果表明:余弦调相散射波干扰可使得补偿相位的估计结果在慢时间上近似正弦分布;在双通道对消成像中,该干扰使得真实场景在方位向上被重复搬移,造成严重的影像重叠,同时在方位向上伴随着密集的明暗条纹;干扰效果可通过设定余弦调制频率、调制指数等参数进行控制。  相似文献   

Characterization of humic substances by advanced solid state NMR spectroscopy: Demonstration of a systematic approach   总被引：2，自引：0，他引：2  

Jingdong Mao  Na ChenXiaoyan Cao 《Organic Geochemistry》2011,42(8):891-902

Characterization of humic substances is challenging due to their structural complexity and heterogeneity. Solid state nuclear magnetic resonance (NMR) is regarded as one of the best tools for elucidating structures of humic substances. The primary solid state NMR technique that has been used so far is the routine ¹³C cross polarization-magic angle spinning (CP-MAS) technique. Although this technique has markedly advanced our understanding of humic substances, the full potential of NMR for characterizing humic substances has yet to be realized. Recent technical developments and applications of advanced solid state NMR have revealed the promise to provide deeper insights into structures of humic substances. In this paper, we summarized and demonstrated the systematic solid state NMR protocol for characterization of humic substances using a humic acid as an example. This protocol included (1) identification of specific functional groups using spectral editing techniques, occasionally assisted by ¹H¹³C two-dimensional heteronuclear correlation (2D HETCOR) NMR, (2) quantification of specific functional groups based on direct polarization-magic angle spinning (DP-MAS) and DP-MAS with recoupled dipolar dephasing, combined with spectral editing techniques, (3) determination of connectivities and proximities of specific functional groups by ¹H¹³C 2D HETCOR or 2D HETCOR combined with spectral editing techniques, and (4) examination of domains and heterogeneities by ¹H¹³C 2D HETCOR with ¹H spin diffusion. We used a soil humic acid as an example to demonstrate how this protocol was applied to the characterization of humic substances step by step. Afterwards, based on typical ¹³C NMR spectra of humic substances we described how we could combine different NMR techniques to identify specific functional groups band by band from downfield to upfield. Finally, we briefly mentioned the potential new NMR techniques that could be developed to enrich the current systematic protocol. This systematic protocol is not only applicable to humic substances but also to other natural organic matter samples.  相似文献