Cooperative Cuts for Image Segmentation
2010
Technical Report
ei
We propose a novel framework for graph-based cooperative regularization that uses submodular costs on graph edges. We introduce an efficient iterative algorithm to solve the resulting hard discrete optimization problem, and show that it has a guaranteed approximation factor. The edge-submodular formulation is amenable to the same extensions as standard graph cut approaches, and applicable to a range of problems. We apply this method to the image segmentation problem. Specifically, Here, we apply it to introduce a discount for homogeneous boundaries in binary image segmentation on very difficult images, precisely, long thin objects and color and grayscale images with a shading gradient. The experiments show that significant portions of previously truncated objects are now preserved.
Author(s): | Jegelka, S. and Bilmes, J. |
Number (issue): | UWEETR-1020-0003 |
Year: | 2010 |
Month: | August |
Day: | 0 |
Department(s): | Empirische Inferenz |
Bibtex Type: | Technical Report (techreport) |
Institution: | University of Washington, Washington DC, USA |
Language: | en |
Organization: | Max-Planck-Gesellschaft |
School: | Biologische Kybernetik |
Links: |
Web
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BibTex @techreport{6732, title = {Cooperative Cuts for Image Segmentation}, author = {Jegelka, S. and Bilmes, J.}, number = {UWEETR-1020-0003}, organization = {Max-Planck-Gesellschaft}, institution = {University of Washington, Washington DC, USA}, school = {Biologische Kybernetik}, month = aug, year = {2010}, doi = {}, month_numeric = {8} } |