Universe Points Representation Learning for Partial Multi-Graph Matching

12/01/2022

∙

Many challenges from natural world can be formulated as a graph matching problem. Previous deep learning-based methods mainly consider a full two-graph matching setting. In this work, we study the more general partial matching problem with multi-graph cycle consistency guarantees. Building on a recent progress in deep learning on graphs, we propose a novel data-driven method (URL) for partial multi-graph matching, which uses an object-to-universe formulation and learns latent representations of abstract universe points. The proposed approach advances the state of the art in semantic keypoint matching problem, evaluated on Pascal VOC, CUB, and Willow datasets. Moreover, the set of controlled experiments on a synthetic graph matching dataset demonstrates the scalability of our method to graphs with large number of nodes and its robustness to high partiality.

READ FULL TEXT

Universe Points Representation Learning for Partial Multi-Graph Matching

Learning Universe Model for Partial Matching Networks over Multiple Graphs

Partial Gromov-Wasserstein Learning for Partial Graph Matching

Stochastic Iterative Graph Matching

Joint Deep Multi-Graph Matching and 3D Geometry Learning from Inhomogeneous 2D Image Collections

Unsupervised Deep Graph Matching Based on Cycle Consistency

Deep Graph Matching under Quadratic Constraint

Fabricated Pictures Detection with Graph Matching

Universe Points Representation Learning for Partial Multi-Graph Matching

Related Research

Learning Universe Model for Partial Matching Networks over Multiple Graphs

Partial Gromov-Wasserstein Learning for Partial Graph Matching

Stochastic Iterative Graph Matching

Joint Deep Multi-Graph Matching and 3D Geometry Learning from Inhomogeneous 2D Image Collections

Unsupervised Deep Graph Matching Based on Cycle Consistency

Deep Graph Matching under Quadratic Constraint

Fabricated Pictures Detection with Graph Matching