角反射器精确定位是角反射器微形变获取的前提,文中从研究角反射器影像特征入手,详细介绍了角反射器强度、相关性和光谱离散指数(MSR-Mean to Standard deviation Ratio)影像特征:1)角反射器强度影像特征明显,其影像扩散在多个像素上,En...角反射器精确定位是角反射器微形变获取的前提,文中从研究角反射器影像特征入手,详细介绍了角反射器强度、相关性和光谱离散指数(MSR-Mean to Standard deviation Ratio)影像特征:1)角反射器强度影像特征明显,其影像扩散在多个像素上,Envisat数据中角反射器表现为亮点,而TerraSAR数据中角反射器呈明显的十字型;2)角反射器MSR影像特征不明显;3)不同带宽多视处理后统计得到的角反射器相关性聚焦在一个像素内,而且相关值明显高于周边像素。将角反射器强度、相关性和MSR作为衡量光谱稳定性的参数,对比分析不同参数定位出的角反射器像素位置及其对应的相位信息,结果表明:角反射器强度易受背景干扰,此参数定位角反射器容易产生偏差;角反射器MSR值与背景差别小,不能单独用于角反射器定位;角反射器相关性聚焦性好,相关性参数能准确定位角反射器的像素位置,对应的相位值比其他参数定位得到的相位值相对稳定。展开更多
To retrieve wind field from SAR images, the development for surface wind field retrieval from SAR images based on the improvement of new inversion model is present. Geophysical Model Functions(GMFs) have been widely a...To retrieve wind field from SAR images, the development for surface wind field retrieval from SAR images based on the improvement of new inversion model is present. Geophysical Model Functions(GMFs) have been widely applied for wind field retrieval from SAR images. Among them CMOD4 has a good performance under low and moderate wind conditions. Although CMOD5 is developed recently with a more fundamental basis, it has ambiguity of wind speed and a shape gradient of normalized radar cross section under low wind speed condition. This study proposes a method of wind field retrieval from SAR image by combining CMOD5 and CMOD4 Five VV-polarisation RADARSAT2 SAR images are implemented for validation and the retrieval results by a combination method(CMOD5 and CMOD4) together with CMOD4 GMF are compared with QuikSCAT wind data. The root-mean-square error(RMSE) of wind speed is 0.75 m s-1 with correlation coefficient 0.84 using the combination method and the RMSE of wind speed is 1.01 m s-1 with correlation coefficient 0.72 using CMOD4 GMF alone for those cases. The proposed method can be applied to SAR image for avoiding the internal defect in CMOD5 under low wind speed condition.展开更多
This paper presents a method to analyze and calculate the angular glint of targets. By parting the target to very small size cells,using high-frequency approximation,the near-field radar cross section (RCS) is calcula...This paper presents a method to analyze and calculate the angular glint of targets. By parting the target to very small size cells,using high-frequency approximation,the near-field radar cross section (RCS) is calculated based on the scattering from complex targets and environments (SCTE) system,and the angular glint is calculated by the phase grads. The results show that the angular glint can be calculated exactly in the SCTE system,and this method is correct and efficient. In the near-zone,the far-field theory is not applicable and the angular glint should be calculated by the near-field theory.展开更多
As a marked extension of the traditional MoM-PO (method of moment-physical optics) hybrid method, a new hybridization of PO, SBR, and MoM (MoM-SBR/PO) is presented to calculate the multi-reflection contribution in the...As a marked extension of the traditional MoM-PO (method of moment-physical optics) hybrid method, a new hybridization of PO, SBR, and MoM (MoM-SBR/PO) is presented to calculate the multi-reflection contribution in the PO region efficiently by introducing the method of SBR based on RDN notion, which avoids the time-consuming iterative procedure and the choice of proper Green's function. As compared with the traditional MoM-PO hybrid method, the calculation efficiency of the proposed method is greatly improved, and its validity is verified by numerical results.展开更多
文摘角反射器精确定位是角反射器微形变获取的前提,文中从研究角反射器影像特征入手,详细介绍了角反射器强度、相关性和光谱离散指数(MSR-Mean to Standard deviation Ratio)影像特征:1)角反射器强度影像特征明显,其影像扩散在多个像素上,Envisat数据中角反射器表现为亮点,而TerraSAR数据中角反射器呈明显的十字型;2)角反射器MSR影像特征不明显;3)不同带宽多视处理后统计得到的角反射器相关性聚焦在一个像素内,而且相关值明显高于周边像素。将角反射器强度、相关性和MSR作为衡量光谱稳定性的参数,对比分析不同参数定位出的角反射器像素位置及其对应的相位信息,结果表明:角反射器强度易受背景干扰,此参数定位角反射器容易产生偏差;角反射器MSR值与背景差别小,不能单独用于角反射器定位;角反射器相关性聚焦性好,相关性参数能准确定位角反射器的像素位置,对应的相位值比其他参数定位得到的相位值相对稳定。
基金supported by the National Natural Science Foundation of China (Nos.41376010 and 40830959)the Start-up Foundation of Zhejiang Ocean University (No.21105011913)
文摘To retrieve wind field from SAR images, the development for surface wind field retrieval from SAR images based on the improvement of new inversion model is present. Geophysical Model Functions(GMFs) have been widely applied for wind field retrieval from SAR images. Among them CMOD4 has a good performance under low and moderate wind conditions. Although CMOD5 is developed recently with a more fundamental basis, it has ambiguity of wind speed and a shape gradient of normalized radar cross section under low wind speed condition. This study proposes a method of wind field retrieval from SAR image by combining CMOD5 and CMOD4 Five VV-polarisation RADARSAT2 SAR images are implemented for validation and the retrieval results by a combination method(CMOD5 and CMOD4) together with CMOD4 GMF are compared with QuikSCAT wind data. The root-mean-square error(RMSE) of wind speed is 0.75 m s-1 with correlation coefficient 0.84 using the combination method and the RMSE of wind speed is 1.01 m s-1 with correlation coefficient 0.72 using CMOD4 GMF alone for those cases. The proposed method can be applied to SAR image for avoiding the internal defect in CMOD5 under low wind speed condition.
基金Supported by Program for New Century Excellent Talents in University under Grant No.NCET-07-0230the "111" Project under Grant No.B07019 at Harbin Engineering University
基金Supported by the National Natural Science Foundation of China (60301007)the Chen-Guang Plan of Wuhan City(20055003059-32)
文摘This paper presents a method to analyze and calculate the angular glint of targets. By parting the target to very small size cells,using high-frequency approximation,the near-field radar cross section (RCS) is calculated based on the scattering from complex targets and environments (SCTE) system,and the angular glint is calculated by the phase grads. The results show that the angular glint can be calculated exactly in the SCTE system,and this method is correct and efficient. In the near-zone,the far-field theory is not applicable and the angular glint should be calculated by the near-field theory.
文摘As a marked extension of the traditional MoM-PO (method of moment-physical optics) hybrid method, a new hybridization of PO, SBR, and MoM (MoM-SBR/PO) is presented to calculate the multi-reflection contribution in the PO region efficiently by introducing the method of SBR based on RDN notion, which avoids the time-consuming iterative procedure and the choice of proper Green's function. As compared with the traditional MoM-PO hybrid method, the calculation efficiency of the proposed method is greatly improved, and its validity is verified by numerical results.