Litcius/Paper detail

Thresholding normally distributed data creates complex networks

George T. Cantwell, Yanchen Liu, Benjamin F. Maier, Alice C. Schwarze, Carlos A. Serván, Jordan Snyder, Guillaume St-Onge

2020Physical review. E36 citationsDOIOpen Access PDF

Abstract

Network data sets are often constructed by some kind of thresholding procedure. The resulting networks frequently possess properties such as heavy-tailed degree distributions, clustering, large connected components, and short average shortest path lengths. These properties are considered typical of complex networks and appear in many contexts, prompting consideration of their universality. Here we introduce a simple model for correlated relational data and study the network ensemble obtained by thresholding it. We find that some, but not all, of the properties associated with complex networks can be seen after thresholding the correlated data, even though the underlying data are not "complex." In particular, we observe heavy-tailed degree distributions, a large numbers of triangles, and short path lengths, while we do not observe nonvanishing clustering or community structure.

Topics & Concepts

ThresholdingComputer scienceArtificial intelligenceImage (mathematics)Complex Network Analysis TechniquesFunctional Brain Connectivity StudiesOpinion Dynamics and Social Influence