A Fast Image Stitching Algorithm via Multiple-Constraint Corner Matching.

Video panoramic image stitching is in general challenging because there is small overlapping between original images, and stitching processes are therefore extremely time consuming. We present a new algorithm in this paper. Our contribution can be summarized as a multiple-constraint corner matching process and the resultant faster image stitching. The traditional Random Sample Consensus (RANSAC) algorithm is inefficient, especially when stitching a large number of images and when these images have quite similar features. We first filter out many inappropriate corners according to their position information. An initial set of candidate matching-corner pairs is then generated based on grayscales of adjacent regions around each corner. Finally we apply multiple constraints, e.g., their midpoints, distances, and slopes, on every two candidate pairs to remove incorrectlymatched pairs. Consequently, we are able to significantly reduce the number of iterations needed in RANSAC algorithm so that the panorama stitching can be performed in amuch more efficientmanner. Experimental results demonstrate that (i) our corner matching is three times faster than normalized cross-correlation function (NCC) roughmatch in traditional RANSAC algorithmand (ii) panoramas generated from our algorithm feature a smooth transition in overlapping image areas and satisfy human visual requirements. [ABSTRACT FROM AUTHOR]