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Paper detail

Fast and Scalable Complex Network Descriptor Using PageRank and Persistent Homology

The PageRank of a graph is a scalar function defined on the node set of the graph which encodes nodes centrality information of the graph. In this article, we use the PageRank function along with persistent homology to obtain a scalable graph descriptor and utilize it to compare the similarities between graphs. For a given graph $G(V,E)$, our descriptor can be computed in $O(|E|α(|V|))$, where $α$ is the inverse Ackermann function which makes it scalable and computable on massive graphs. We show the effectiveness of our method by utilizing it on multiple shape mesh datasets.

preprint2020arXivOpen access
Mustafa HajijElizabeth MunchPaul Rosen
Social and Information NetworksComputer VisionMachine LearningComputational Geometry
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Mustafa HajijElizabeth MunchPaul Rosen

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