摘要
提出一种对已知相对方位元素的立体影像实施灰度重采样生成核线影像对的方法,对连续像对相对方位元素和独立像对方位元素建立核线影像的理论公式进行了推导,建立了核线影像和原始影像的坐标变换关系;为了提高核线影像建立的效率,在进行核线重采样时,提出分块读写影像的方法。实验表明,建立的核线影像上下视差在亚像素水平,核线影像坐标反算后与原始影像的坐标平均差只有0.000 3个像素,完全可以满足摄影测量立体观测的要求。
This paper put forward a method of generating epipolar images using the relative orientation on aerial stereo image pairs.Firstly,this paper made a deduction about relevant theoretical formulas of generating epipolar images,by using the elements of relative orientation of consecutive photo connection and independent image pair respectively,which in return helps to establish their coordinate transformation relations.Then with the aim to improve the efficiency of epipolar images generation,the paper proposed a new way of reading and writing images for blocks in the process of resampling the images.In the end,experimental evidences have indicated that,under this novel method,the vertical parallax of corresponding image points of the epipolar images generated is within the Sub-pixel level,with the average deviation of pixel coordinates between the epipolar images and the original ones being only 0.000 3,which satisfies the demand for stereoscopic observation in photogrammetry.
出处
《测绘与空间地理信息》
2011年第3期254-257,共4页
Geomatics & Spatial Information Technology
关键词
核线影像
相对方位元素
重采样
影像分块
epipolar images
relative orientation
resampling
image blocking