Litcius/Paper detail

Rankings in directed configuration models with heavy tailed in-degrees

Xing Shi Cai, Pietro Caputo, Guillem Perarnau, Matteo Quattropani

2023The Annals of Applied Probability10 citationsDOIOpen Access PDF

Abstract

We consider the extremal values of the stationary distribution of sparse directed random graphs with given degree sequences and their relation to the extremal values of the in-degree sequence. The graphs are generated by the directed configuration model. Under the assumption of bounded (2+η)-moments on the in-degrees and of bounded out-degrees, we obtain tight comparisons between the maximum value of the stationary distribution and the maximum in-degree. Under the further assumption that the order statistics of the in-degrees have a power-law behavior, we show that the extremal values of the stationary distribution also have a power-law behavior with the same index. In the same setting, we prove that these results extend to the PageRank scores of the random digraph, thus confirming a version of the so-called power-law hypothesis. Along the way we establish several facts about the model, including the mixing time cutoff and the characterization of the typical values of the stationary distribution, which were previously obtained under the assumption of bounded in-degrees.

Topics & Concepts

MathematicsBounded functionDigraphStationary sequenceCutoffStationary distributionDegree (music)Distribution (mathematics)CombinatoricsSequence (biology)Power lawMixing (physics)Applied mathematicsRandom variableStatistical physicsMathematical analysisStatisticsGeneticsQuantum mechanicsMarkov chainPhysicsAcousticsBiologyMarkov Chains and Monte Carlo MethodsStochastic processes and statistical mechanicsComplex Network Analysis Techniques