Continuous-time stochastic analysis of rumor spreading with multiple operations
Résumé
In this paper, we analyze a new asynchronous rumor spreading protocol to deliver a rumor to all the nodes of a large-scale distributed network. This protocol relies on successive pull operations involving k different nodes, with k ≥ 2, and called k-pull operations. Specifically during a k-pull operation, an uninformed node a contacts k −1 other nodes at random in the network, and if at least one of them knows the rumor, then node a learns it. We perform a detailed study in continuous-time of the total time Θ k,n needed for all the n nodes to learn the rumor. These results extend those obtained in a previous paper which dealt with the discrete-time case. We obtain the mean value, the variance and the distribution of Θ k,n together with their asymptotic behavior when the number of nodes n tends to infinity.
Origine | Fichiers produits par l'(les) auteur(s) |
---|