Striations in PageRank-Ordered Matrices
Abstract
Patterns often appear in a variety of large, real-world networks, and interesting physical phenomena are often explained by network topology as in the case of the bow-tie structure of the World Wide Web, or the small world phenomenon in social networks. The discovery and modelling of such regular patterns has a wide application from disease propagation to financial markets. In this work we describe a newly discovered regularly occurring striation pattern found in the PageRank ordering of adjacency matrices that encode real-world networks. We demonstrate that these striations are the result of well-known graph generation processes resulting in regularities that are manifest in the typical neighborhood distribution. The spectral view explored in this paper encodes a tremendous amount about the explicit and implicit topology of a given network, so we also discuss the interesting network properties, outliers and anomalies that a viewer can determine from a brief look at the re-ordered matrix.
Cite
@article{arxiv.1605.06249,
title = {Striations in PageRank-Ordered Matrices},
author = {Corey Pennycuff and Tim Weninger},
journal= {arXiv preprint arXiv:1605.06249},
year = {2016}
}
Comments
19 pages, 13 Figures, will appear in Social Network Analysis and Mining Journal