Title :
Surfaces with occlusions from layered stereo
Author :
Lin, Michael H. ; Tomasi, Carlo
Author_Institution :
Stanford Univ., CA, USA
Abstract :
Although steady progress has been made in recent stereo algorithms, producing accurate results in the neighborhood of depth discontinuities remains a challenge. Moreover, among the techniques that best localize depth discontinuities, it is common to work only with a discrete set of disparity values, hindering the modeling of smooth, non-fronto-parallel surfaces. We propose to estimate scene structure as a set of smooth surface patches. The disparities within each patch are modeled by a spline, while the extent of each patch is represented by a pixelwise labeling of the source images. Disparities and extents are alternately estimated in an iterative, energy minimization framework. Segmentation is via graph cuts, aided by image gradients. Input images are treated symmetrically, and occlusions are addressed explicitly. Promising experimental results are presented.
Keywords :
hidden feature removal; image segmentation; iterative methods; minimisation; splines (mathematics); stereo image processing; binocular stereo algorithm; depth discontinuity; discrete disparity value; energy minimization; graph cuts; image gradient; image segmentation; iterative estimation; layered stereo; nonfronto-parallel surface; patch modeling; pixelwise labeling; scene structure estimation; smooth surface patch; source image; spline; surface modeling; surface occlusion; three-axis categorization; Calibration; Cost function; Geometry; Image segmentation; Labeling; Layout; Photometry; Pixel; Spline; Surface treatment;
Conference_Titel :
Computer Vision and Pattern Recognition, 2003. Proceedings. 2003 IEEE Computer Society Conference on
Print_ISBN :
0-7695-1900-8
DOI :
10.1109/CVPR.2003.1211423
