Abstract

This paper presents a method for stitching stereoscopic panoramas from stereo images casually taken using a stereo camera. This method addresses three challenges of stereoscopic image stitching: how to handle parallax, how to stitch the leftand right-view panorama consistently, and how to take care of disparity during stitching. This method addresses these challenges using a three-step approach. First, we employ a state-of-the-art stitching algorithm that handles parallax well to stitch the left views of input stereo images and create the left view of the final stereoscopic panorama. Second, we stitch the input disparity maps to obtain the target disparity map for the stereoscopic panorama by solving a Poisson’s equation. This target disparity map is optimized to avoid vertical disparities and preserve the original perceived depth distribution. Finally, we warp the right views of the input stereo images and stitch them into the right-view panorama according to the target disparity map. The stitching of the right views is formulated as a labeling problem that is constrained by the stitching of the leftviews to make the leftand right-view panorama consistent to avoid “retinal rivalry”. Our experiments show that our method can effectively stitch casually taken stereo images and produce high-quality stereo panoramas that deliver a pleasant stereoscopic 3D viewing experience.