2017
DOI: 10.1016/j.spa.2016.12.003
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Interacting generalized Friedman’s urn systems

Abstract: Abstract. We consider systems of interacting Generalized Friedman's Urns (GFUs) having irreducible mean replacement matrices. The interaction is modeled through the probability to sample the colors from each urn, that is defined as convex combination of the urn proportions in the system. From the weights of these combinations we individuate subsystems of urns evolving with different behaviors. We provide a complete description of the asymptotic properties of urn proportions in each subsystem by establishing li… Show more

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Cited by 14 publications
(20 citation statements)
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“…The present work have some issues in common with [12,13] and [2], but at the same time some significant differences can be pointed out. In particular, we share with [2] a general interacting framework driven by the interacting matrix (here called weighted adjacency matrix). However, here we mainly consider irreducible interacting matrices and hence the decomposition of the system in sub-groups is only sketched.…”
Section: Introductionmentioning
confidence: 69%
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“…The present work have some issues in common with [12,13] and [2], but at the same time some significant differences can be pointed out. In particular, we share with [2] a general interacting framework driven by the interacting matrix (here called weighted adjacency matrix). However, here we mainly consider irreducible interacting matrices and hence the decomposition of the system in sub-groups is only sketched.…”
Section: Introductionmentioning
confidence: 69%
“…To this purpose, here we highlight that for the Eggenberger-Póya urn we have lim n nr n = 1. We refer to [12,Example 1.2] for a meaningful case of reinforced stochastic process of the type (1)- (2) where lim n n γ r n = c with γ < 1 and c ∈ (0, +∞). This example concerns an opinion dynamics in an evolving population, modeled by a graph evolving according to preferential attachment [1,19,28].…”
Section: Introductionmentioning
confidence: 99%
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“…The irreducibility of W reflects a situation in which all the vertices are connected among each others and hence there are no sub-systems with independent dynamics (see [2,3] for further details). The diagonalizability of W allows us to find a non-singular matrix U such that U ⊤ W ( U ⊤ ) −1 is diagonal with complex elements λ j ∈ Sp(W ).…”
Section: Notation and Assumptionsmentioning
confidence: 99%