Minimizing Sparse High-Order Energies by Submodular Vertex-Cover
Abstract
Inference on high-order graphical models has become increasingly important in recent years. We consider energies with simple 'sparse' high-order potentials. Previous work in this area uses either specialized message-passing or transforms each high-order potential to the pairwise case. We take a fundamentally different approach, transforming the entire original problem into a comparatively small instance of a submodular vertex-cover problem. These vertex-cover instances can then be attacked by standard pairwise methods, where they run much faster (4--15 times) and are often more effective than on the original problem. We evaluate our approach on synthetic data, and we show that our algorithm can be useful in a fast hierarchical clustering and model estimation framework.
Cite
Text
Delong et al. "Minimizing Sparse High-Order Energies by Submodular Vertex-Cover." Neural Information Processing Systems, 2012.Markdown
[Delong et al. "Minimizing Sparse High-Order Energies by Submodular Vertex-Cover." Neural Information Processing Systems, 2012.](https://mlanthology.org/neurips/2012/delong2012neurips-minimizing/)BibTeX
@inproceedings{delong2012neurips-minimizing,
title = {{Minimizing Sparse High-Order Energies by Submodular Vertex-Cover}},
author = {Delong, Andrew and Veksler, Olga and Osokin, Anton and Boykov, Yuri},
booktitle = {Neural Information Processing Systems},
year = {2012},
pages = {962-970},
url = {https://mlanthology.org/neurips/2012/delong2012neurips-minimizing/}
}