Iterative disparity estimation and image segmentation
ISCGAV'08 Proceedings of the 8th conference on Signal processing, computational geometry and artificial vision
Embedded planar surface segmentation system for stereo images
Machine Vision and Applications
A fast and robust feature-based 3D algorithm using compressed image correlation
Pattern Recognition Letters
Depth perceptual region-of-interest based multiview video coding
Journal of Visual Communication and Image Representation
Robust contour tracking using a modified snake model in stereo image sequences
ICIAR'07 Proceedings of the 4th international conference on Image Analysis and Recognition
3-D Video based Disparity Estimation and Object Segmentation
International Journal of Advanced Pervasive and Ubiquitous Computing
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Most of the emerging content-based multimedia technologies are based on efficient methods to solve machine early vision tasks. Among other tasks, object segmentation is perhaps the most important problem in single image processing, whereas pixel-correspondence estimation is the crucial task in multiview image analysis. The solution of these two problems is the key for the development of the majority of leading-edge interactive video-communication technologies and telepresence systems. In this paper, we present a robust framework comprised of joined pixel-correspondence estimation and image segmentation in video sequences taken simultaneously from different perspectives. An improved concept for stereo-image analysis based on block matching with a local adaptive window is introduced. The size and shape of the reference window is calculated adaptively according to the degree of reliability of disparities estimated previously. Considerable improvements are obtained just within object borders or image areas that become occluded by applying the proposed block-matching model. An initial object segmentation is obtained by merging neighboring sampling positions with disparity vectors of similar size and direction. Starting from this initial segmentation, true object borders are detected using a contour-matching algorithm. In this process, the contour of the initial segmentation is taken as a reference pattern, and the edges extracted from the original images, by applying a multiscale algorithm, are the candidates for the true object contour. The performance of the introduced methods has been verified