A Continuous Max-Flow Approach to Potts Model

Jing Yuan, Egil Bae, Xue-Cheng Tai, Yuri Boykov

In European Conference on Computer Vision (ECCV), Vol.IV, LNCS 6316, pp.379-392, Crete, Greece, September, 2010.

Abstract

We address the continuous problem of assigning multiple (unordered) labels with the minimum perimeter. The corresponding discrete Potts model is typically addressed with a-expansion which can generate metrication artifacts. Existing convex continuous formulations of the Potts model use TV-based functionals directly encoding perimeter costs. Such formulations are analogous to min-cut problems on graphs. We propose a novel convex formulation with a continous max-flow functional. This approach is dual to the standard TV-based formulations of the Potts model. Our continous max-flow approach has significant numerical advantages; it avoids extra computational load in enforcing the simplex constraints and naturally allows parallel computations over different labels. Numerical experiments show competitive performance in terms of quality and significantly reduced number of iterations compared to the previous state of the art convex methods for the continuous Potts model.


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