Higher-order segmentation via multicuts

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摘要

Multicuts enable to conveniently represent discrete graphical models for unsupervised and supervised image segmentation, in the case of local energy functions that exhibit symmetries. The basic Potts model and natural extensions thereof to higher-order models provide a prominent class of such objectives, that cover a broad range of segmentation problems relevant to image analysis and computer vision. We exhibit a way to systematically take into account such higher-order terms for computational inference. Furthermore, we present results of a comprehensive and competitive numerical evaluation of a variety of dedicated cutting-plane algorithms. Our approach enables the globally optimal evaluation of a significant subset of these models, without compromising runtime. Polynomially solvable relaxations are studied as well, along with advanced rounding schemes for post-processing.

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论文评审过程:Received 15 October 2014, Revised 28 October 2015, Accepted 12 November 2015, Available online 21 November 2015, Version of Record 13 January 2016.

论文官网地址:https://doi.org/10.1016/j.cviu.2015.11.005