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      On Minimal Sets to Destroy the \(k\)-Core in Random Networks

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          Abstract

          We study the problem of finding the smallest set of nodes in a network whose removal results in an empty \(k\)-core; where the \(k\)-core is the sub-network obtained after the iterative removal of all nodes of degree smaller than \(k\). This problem is also known in the literature as finding the minimal contagious set. The main contribution of our work is an analysis of the performance of the recently introduced corehd algorithm [Scientific Reports, 6, 37954 (2016)] on random networks taken from the configuration model via a set of deterministic differential equations. Our analyses provides upper bounds on the size of the minimal contagious set that improve over previously known bounds. Our second contribution is a new heuristic called the weak-neighbor algorithm that outperforms all currently known local methods in the regimes considered.

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          Threshold Models of Collective Behavior

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            Efficient erasure correcting codes

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              Bootstrap percolation on a Bethe lattice

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                Author and article information

                Journal
                08 June 2018
                Article
                1806.03134
                f1554d8b-cd93-4a06-9765-869b0109389f

                http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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                Custom metadata
                17 pages, 2 figures, 3 tables
                physics.soc-ph cond-mat.dis-nn cs.SI math.PR

                Social & Information networks,General physics,Theoretical physics,Probability
                Social & Information networks, General physics, Theoretical physics, Probability

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