Submodular relaxation for MRFs with high-order potentials
ECCV'12 Proceedings of the 12th international conference on Computer Vision - Volume Part III
Energy distribution view for monotonic dual decomposition
International Journal of Approximate Reasoning
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Approximate inference by decomposition of discrete graphical models and Lagrangian relaxation has become a key technique in computer vision. The resulting dual objective function is convenient from the optimization point-of-view, in principle. Due to its inherent non-smoothness, however, it is not directly amenable to efficient convex optimization. Related work either weakens the relaxation by smoothing or applies variations of the inefficient projected subgradient methods. In either case, heuristic choices of tuning parameters influence the performance and significantly depend on the specific problem at hand. In this paper, we introduce a novel approach based on bundle methods from the field of combinatorial optimization. It is directly based on the non-smooth dual objective function, requires no tuning parameters and showed a markedly improved efficiency uniformly over a large variety of problem instances including benchmark experiments. Our code will be publicly available after publication of this paper.