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Segmentation of Salient Closed Contours from Real Images

Shyjan Mahamud, Karvel K. Thornber, and Lance R. Williams
IEEE International Conference on Computer Vision (ICCV), September, 1999.

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Abstract

Using a saliency measure based on the global property of contour closure, we have developed a method that reliably segments out salient contours bounding unknown objects from real edge images. The measure also incorporates the Gestalt principles of proximity and smooth continuity that previous methods have exploited. Unlike previous measures, we incorporate contour closure by finding the eigen-solution associated with a stochastic process that models the distribution of contours passing through edges in the scene. The segmentation algorithm utilizes the saliency measure to identify multiple closed contours by finding strongly-connected components on an induced graph. The determination of strongly-connected components is a direct consequence of the property of closure. We report for the first time, results on large real images for which segmentation takes an average of about 10 secs per object on a general-purpose workstation. The segmentation is made efficient for such large images by exploiting the inherent symmetry in the task.

Notes

Text Reference

Shyjan Mahamud, Karvel K. Thornber, and Lance R. Williams, "Segmentation of Salient Closed Contours from Real Images," IEEE International Conference on Computer Vision (ICCV), September, 1999.

BibTeX Reference

@inproceedings{Mahamud_1999_2607,    author = "Shyjan Mahamud and Karvel K. Thornber and Lance R. Williams",    title = "Segmentation of Salient Closed Contours from Real Images",    booktitle = "IEEE International Conference on Computer Vision (ICCV)",    publisher = "IEEE",    month = "September",    year = "1999", }