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ECCV
2008
Springer
2008
Springer
Prior-Based Piecewise-Smooth Segmentation by Template Competitive Deformation Using Partitions of Unity
We propose a new algorithm for two-phase, piecewise-smooth segmentation with shape prior. The image is segmented by a binary template that is deformed by a regular geometric transformation. The choice of the template together with the constraint on the transformation introduce the shape prior. In particular, the topology of the shape is preserved if the transformation is diffeomorphic. The deformation is guided by the maximization of the likelihood of foreground and background intensity models, so that we can refer to this approach as Competitive Deformation. In each region, the intensity is modelled as a smooth approximation of the original image. We represent the transformation using a Partition of Unity Finite Element Method, which consists in representing each component with polynomial approximations within local patches. A conformity constraint between the patches provides a way to control the globality of the deformation. We show several results on synthetic images, as well as on...
Real-time TrafficBackground Intensity Models | Competitive Deformation | Computer Vision | Conformity Constraint | ECCV 2008 | Regular Geometric Transformation | Unity Finite Element |
| Added | 15 Oct 2009 |
| Updated | 15 Oct 2009 |
| Type | Conference |
| Year | 2008 |
| Where | ECCV |
| Authors | Benoit Mory, Laurent D. Cohen, Oudom Somphone, Shérif Makram-Ebeid |
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