Title :
Image registration using the epipolar constraint
Author_Institution :
IBM Corp., Gaithersburg, MD, USA
Abstract :
Describes an algorithm for the automated registration of remotely-sensed imagery. The algorithm registers 6000×6000-pixel images to the subpixel level in less than 15 minutes on a RISC System/6000TM workstation. The paper shows that the registration function for parallel projections is of the form F(x,y)=A(x,y)+h(x,y)e, where A(x,y) is an affine transformation, h(x,y) is a function that depends on the topographic heights, and e is a vector that defines the epipolar lines. The least squares estimate of the parameters of this function can be derived from a set of image match points. The search for additional match points is then a one-dimensional search along the epipolar lines, which greatly increases the speed and accuracy of the registration
Keywords :
geophysical techniques; geophysics computing; remote sensing; RISC; affine transformation; algorithm; automated registration; computer method; epipolar constraint; epipolar line; geophysical measurement technique; image match point; image registration; land surface optical imaging; parallel projection; registration function; remote sensing; terrain mapping; Change detection algorithms; Image analysis; Image registration; Image sensors; Layout; Least squares approximation; Polynomials; Remote sensing; Surface topography; Workstations;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 1993. IGARSS '93. Better Understanding of Earth Environment., International
Conference_Location :
Tokyo
Print_ISBN :
0-7803-1240-6
DOI :
10.1109/IGARSS.1993.322105
