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在简述遥感图像的几何畸变特征的基础上,本文着重讨论了包括陆地卫星多光谱扫描图像 (Lanasat-MSS)、陆地卫星专题制图仪图像(Landesat-TM)和航空多光谱扫描图像在内的各类 全景扫描图像(panoramic scanner image)系统几何畴变的成因、大小及其变化规律,提出了定 量计算图像上任一像元处系统几何畴变量D的计算公式。 本文探讨了全景扫描图像系统几何校正的基本原则,并根据这些基本原则,用Fortran语言编 制了可直接用于校正各类全景扫描图像系统几何畸变的实用程序。 用该程序对德国南部某地的航空多光谱扫描图像实施系统几何校正的结果表明,偏离航线不 同距离各部位影像的系统几何畸变均得到合理校正,图像上由于全景扫描造成的不程度的压缩现 象均得到相应的补偿。
On the basis of a brief description of the geometric distortion features of remote sensing images, this paper mainly discusses the characteristics of Lanasat-MSS, Landesat-TM images and multispectral images of airborne multispectral scanning images In this paper, the calculation formula of the geometric variable D of a system at any pixel in a quantitatively computed image is proposed, which is based on the principle, size and variation of the geometric scanner of all kinds of panoramic scanner images. In this paper, we discuss the basic principles of geometric correction of panoramic scanning image system. Based on these basic principles, a practical program that can be used to correct the geometric distortion of various panoramic scanning image systems is compiled using Fortran language. Using this program, the system geometric correction of multispectral scanning imagery in a place in southern Germany shows that the geometric distortion of the system at different distances from each other is properly corrected. As a result, the image is not compressed due to panoramic scanning Have been the appropriate compensation.