Litcius/Paper detail

Covering Problems and Core Percolations on Hypergraphs

Bruno Coutinho, Ang-Kun Wu, Haijun Zhou, Yang‐Yu Liu

2020Physical Review Letters64 citationsDOIOpen Access PDF

Abstract

We introduce two generalizations of core percolation in graphs to hypergraphs, related to the minimum hyperedge cover problem and the minimum vertex cover problem on hypergraphs, respectively. We offer analytical solutions of these two core percolations for uncorrelated random hypergraphs whose vertex degree and hyperedge cardinality distributions are arbitrary but have nondiverging moments. We find that for several real-world hypergraphs their two cores tend to be much smaller than those of their null models, suggesting that covering problems in those real-world hypergraphs can actually be solved in polynomial time.

Topics & Concepts

Vertex coverCombinatoricsCardinality (data modeling)UncorrelatedVertex (graph theory)Cover (algebra)Core (optical fiber)MathematicsNull (SQL)Percolation (cognitive psychology)Discrete mathematicsHypergraphParameterized complexityDegree (music)GraphComputer sciencePhysicsTelecommunicationsEngineeringMechanical engineeringStatisticsAcousticsNeuroscienceData miningDatabaseBiologyComplex Network Analysis TechniquesStochastic processes and statistical mechanicsHuman Mobility and Location-Based Analysis