English

Network Alignment by Discrete Ollivier-Ricci Flow

Social and Information Networks 2018-09-11 v2 Computational Geometry

Abstract

In this paper, we consider the problem of approximately aligning/matching two graphs. Given two graphs G1=(V1,E1)G_{1}=(V_{1},E_{1}) and G2=(V2,E2)G_{2}=(V_{2},E_{2}), the objective is to map nodes u,vG1u, v \in G_1 to nodes u,vG2u',v'\in G_2 such that when u,vu, v have an edge in G1G_1, very likely their corresponding nodes u,vu', v' in G2G_2 are connected as well. This problem with subgraph isomorphism as a special case has extra challenges when we consider matching complex networks exhibiting the small world phenomena. In this work, we propose to use `Ricci flow metric', to define the distance between two nodes in a network. This is then used to define similarity of a pair of nodes in two networks respectively, which is the crucial step of network alignment. %computed by discrete graph curvatures and graph Ricci flows. Specifically, the Ricci curvature of an edge describes intuitively how well the local neighborhood is connected. The graph Ricci flow uniformizes discrete Ricci curvature and induces a Ricci flow metric that is insensitive to node/edge insertions and deletions. With the new metric, we can map a node in G1G_1 to a node in G2G_2 whose distance vector to only a few preselected landmarks is the most similar. The robustness of the graph metric makes it outperform other methods when tested on various complex graph models and real world network data sets (Emails, Internet, and protein interaction networks)\footnote{The source code of computing Ricci curvature and Ricci flow metric are available: https://github.com/saibalmars/GraphRicciCurvature}.

Keywords

Cite

@article{arxiv.1809.00320,
  title  = {Network Alignment by Discrete Ollivier-Ricci Flow},
  author = {Chien-Chun Ni and Yu-Yao Lin and Jie Gao and Xianfeng David Gu},
  journal= {arXiv preprint arXiv:1809.00320},
  year   = {2018}
}

Comments

Appears in the Proceedings of the 26th International Symposium on Graph Drawing and Network Visualization (GD 2018)

R2 v1 2026-06-23T03:51:56.513Z