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Heliyon
Apr, 2023;9 (4): e15125.

A novel complex social network rumor stochastic model: Convergence in distribution to a final rumor size.

Divine Wanduku
Author Information
  1. Divine Wanduku: Department of Mathematical Sciences, Georgia Southern University, 65 Georgia Ave, Room 3309, Statesboro, GA, 30460, USA.
PMID: 37077689 DOI: 10.1016/j.heliyon.2023.e15125

Abstract

We introduce a chain-binomial model in a heterogeneous complex social network (HCSN) to investigate the spread of a rumor. A novel formulation of the state of the Markov chain (MC) for the SEIR (susceptible-exposed-infected-removed) rumor epidemic model is obtained, where two discrete time measures represent individuals in their disease states both instantaneously, and also the total time duration in each state. The general MC is characterized in the HCSN, for both the mean-field and global levels of the network rumor epidemic dynamics. The convergence in distribution of the MC to the final size of the rumor epidemic random variable is fully characterized. Moreover, the algorithm to obtain the expected final number of nodes that ever hear the rumor is given. An example to demonstrate the algorithm is presented.

Keywords

60E05 60G10 91D10 92B15 Chain-binomial model Complex social network Convergence in distribution Heterogeneous network Rumor size distribution SEEIR model

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Journal Article

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