Tightening MRF Relaxations with Planar Subproblems
Machine Learning
2012-02-20 v1 Machine Learning
Abstract
We describe a new technique for computing lower-bounds on the minimum energy configuration of a planar Markov Random Field (MRF). Our method successively adds large numbers of constraints and enforces consistency over binary projections of the original problem state space. These constraints are represented in terms of subproblems in a dual-decomposition framework that is optimized using subgradient techniques. The complete set of constraints we consider enforces cycle consistency over the original graph. In practice we find that the method converges quickly on most problems with the addition of a few subproblems and outperforms existing methods for some interesting classes of hard potentials.
Cite
@article{arxiv.1202.3771,
title = {Tightening MRF Relaxations with Planar Subproblems},
author = {Julian Yarkony and Ragib Morshed and Alexander T. Ihler and Charless C. Fowlkes},
journal= {arXiv preprint arXiv:1202.3771},
year = {2012}
}