The evaluation of geometric calibration accuracy of high resolution satellite images has been increasingly recognized in recent years.In order to evaluate geometric accuracy for dual-camera satellite images based on t...The evaluation of geometric calibration accuracy of high resolution satellite images has been increasingly recognized in recent years.In order to evaluate geometric accuracy for dual-camera satellite images based on the ground control points(GCP),a rigorous geometric imaging model,which was based on the collinear equation of the probe directional angle and the optimized tri-axial attitude determination(TRIAD)algorithm,is presented.Two reliable test fields in Tianjin and Jinan(China)were utilized for geometric accuracy validation of Pakistan Remote Sensing Satellite-1.The experimental results demonstrate a certain deviation of the on-orbit calibration result from the initial design values of the calibration parameters.Therefore,on-orbit geometric calibration is necessary for optical satellite imagery.Within this research,the geometrical performances including positioning accuracy without/with GCP and band registration of the dual-camera satellite were analyzed in detail,and the results of geometric image quality are assessed and discussed.As a result,it is feasible and necessary to establish such a geometric calibration model to evaluate the geometric quality of dual-camera satellite.展开更多
Pressure Sensitive Paint(PSP)technique has been increasingly applied to the experimental research of aerodynamics and thermodynamics due to its strengths of non-contact,high resolution results and large coverage area,...Pressure Sensitive Paint(PSP)technique has been increasingly applied to the experimental research of aerodynamics and thermodynamics due to its strengths of non-contact,high resolution results and large coverage area,etc.However,rarely has this technique been successfully used to the study of internal flow such as compressor cascade,since narrow flow passages would heavily restrict the acquisition of PSP images.In this paper,PSP technique was used to study the pressure distribution on a linear compressor cascade with large solidity of 2.3,where the view of recording camera can be heavily blocked due to adjacent blade surfaces.To help get integrated PSP images of the internal flow passage,dual camera system along with image processing tools like 3D reconstruction and image integration were adopted.The results showed that with the aid of such assistance,image results with good quality and readability could be obtained.Meanwhile,pressure data given by PSP were compared with data from traditional way of pressure taps and showed good consistency.Massive results of the entire cascade passage surface were given with different inlet Mach numbers and incidence angles.The results showed that PSP technique can integrally measure cascade tunnel of large solidity with the help of dual-camera system.展开更多
双平面镜辅助多视角数字图像相关方法(multi-view digital image correlation,MV-DIC)是DIC技术用于全景或双表面形貌和变形测量的新分支。传统的MV-DIC需要两套或多套同步的双目3D-DIC系统,而双平面镜辅助MV-DIC仅需要一套常规3D-DIC...双平面镜辅助多视角数字图像相关方法(multi-view digital image correlation,MV-DIC)是DIC技术用于全景或双表面形貌和变形测量的新分支。传统的MV-DIC需要两套或多套同步的双目3D-DIC系统,而双平面镜辅助MV-DIC仅需要一套常规3D-DIC系统和两个平面反射镜,其系统成本低和易于实现等优点使其在常规尺寸试样的全景/双表面变形测量任务中可完全替代前者。本文介绍了作者近期在双平面镜辅助MV-DIC研究中取得的新进展,包括两种新型的双平面镜辅助MV-DIC系统和一种基于荧光散斑的平面镜反射变换标定方法。最后介绍了双平面镜辅助MV-DIC在含缺陷蜂窝合金板面内压缩、手机跌落以及管道高速振动双平面/全景变形测量中的应用。展开更多
基金supported by the National Natural Science Foundation of China(No.41801291)。
文摘The evaluation of geometric calibration accuracy of high resolution satellite images has been increasingly recognized in recent years.In order to evaluate geometric accuracy for dual-camera satellite images based on the ground control points(GCP),a rigorous geometric imaging model,which was based on the collinear equation of the probe directional angle and the optimized tri-axial attitude determination(TRIAD)algorithm,is presented.Two reliable test fields in Tianjin and Jinan(China)were utilized for geometric accuracy validation of Pakistan Remote Sensing Satellite-1.The experimental results demonstrate a certain deviation of the on-orbit calibration result from the initial design values of the calibration parameters.Therefore,on-orbit geometric calibration is necessary for optical satellite imagery.Within this research,the geometrical performances including positioning accuracy without/with GCP and band registration of the dual-camera satellite were analyzed in detail,and the results of geometric image quality are assessed and discussed.As a result,it is feasible and necessary to establish such a geometric calibration model to evaluate the geometric quality of dual-camera satellite.
基金This study was co-supported by the National Natural Science Foundation of China(No.51790512)the Ministry of Education of the People's Republic of China(111 Project,No.B17037).
文摘Pressure Sensitive Paint(PSP)technique has been increasingly applied to the experimental research of aerodynamics and thermodynamics due to its strengths of non-contact,high resolution results and large coverage area,etc.However,rarely has this technique been successfully used to the study of internal flow such as compressor cascade,since narrow flow passages would heavily restrict the acquisition of PSP images.In this paper,PSP technique was used to study the pressure distribution on a linear compressor cascade with large solidity of 2.3,where the view of recording camera can be heavily blocked due to adjacent blade surfaces.To help get integrated PSP images of the internal flow passage,dual camera system along with image processing tools like 3D reconstruction and image integration were adopted.The results showed that with the aid of such assistance,image results with good quality and readability could be obtained.Meanwhile,pressure data given by PSP were compared with data from traditional way of pressure taps and showed good consistency.Massive results of the entire cascade passage surface were given with different inlet Mach numbers and incidence angles.The results showed that PSP technique can integrally measure cascade tunnel of large solidity with the help of dual-camera system.
文摘双平面镜辅助多视角数字图像相关方法(multi-view digital image correlation,MV-DIC)是DIC技术用于全景或双表面形貌和变形测量的新分支。传统的MV-DIC需要两套或多套同步的双目3D-DIC系统,而双平面镜辅助MV-DIC仅需要一套常规3D-DIC系统和两个平面反射镜,其系统成本低和易于实现等优点使其在常规尺寸试样的全景/双表面变形测量任务中可完全替代前者。本文介绍了作者近期在双平面镜辅助MV-DIC研究中取得的新进展,包括两种新型的双平面镜辅助MV-DIC系统和一种基于荧光散斑的平面镜反射变换标定方法。最后介绍了双平面镜辅助MV-DIC在含缺陷蜂窝合金板面内压缩、手机跌落以及管道高速振动双平面/全景变形测量中的应用。