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<scp>Bavarian</scp>: Betweenness Centrality Approximation with Variance-aware Rademacher Averages

Cyrus Cousins, Chloe Wohlgemuth, Matteo Riondato

2022ACM Transactions on Knowledge Discovery from Data13 citationsDOI

Abstract

“[A]llain Gersten, Hopfen, und Wasser” — 1516 Reinheitsgebot We present Bavarian , a collection of sampling-based algorithms for approximating the Betweenness Centrality (BC) of all vertices in a graph. Our algorithms use Monte-Carlo Empirical Rademacher Averages (MCERAs), a concept from statistical learning theory, to efficiently compute tight bounds on the maximum deviation of the estimates from the exact values. The MCERAs provide a sample-dependent approximation guarantee much stronger than the state-of-the-art, thanks to its use of variance-aware probabilistic tail bounds. The flexibility of the MCERAs allows us to introduce a unifying framework that can be instantiated with existing sampling-based estimators of BC, thus allowing a fair comparison between them, decoupled from the sample-complexity results with which they were originally introduced. Additionally, we prove novel sample-complexity results showing that, for all estimators, the sample size sufficient to achieve a desired approximation guarantee depends on the vertex-diameter of the graph, an easy-to-bound characteristic quantity. We also show progressive-sampling algorithms and extensions to other centrality measures, such as percolation centrality. Our extensive experimental evaluation of Bavarian shows the improvement over the state-of-the-art made possible by the MCERAs (2–4× reduction in the error bound), and it allows us to assess the different trade-offs between sample size and accuracy guarantees offered by the different estimators.

Topics & Concepts

EstimatorBetweenness centralityCentralityVariance reductionSample size determinationVariance (accounting)Computer scienceSampling (signal processing)Upper and lower boundsVertex (graph theory)MathematicsAlgorithmSample (material)Importance samplingGraphTheoretical computer scienceMonte Carlo methodStatisticsAccountingBusinessChemistryMathematical analysisComputer visionChromatographyFilter (signal processing)Complex Network Analysis TechniquesMental Health Research TopicsAdvanced Clustering Algorithms Research
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