F. Simonot scite author profile

Let P be an infinite irreducible stochastic matrix, recurrent positive and stochastically monotone and Pn be any n × n stochastic matrix with Pn ≧ Tn, where Tn denotes the n × n northwest corner truncation of P. These assumptions imply the existence of limit distributions π and πn for P and Pn respectively. We show that if the Markov chain with transition probability matrix P meets the further condition of geometric recurrence then the exact convergence rate of πn to π can be expressed in terms of the radius of convergence of the generating function of π. As an application of the preceding result, we deal with the random walk on a half line and prove that the assumption of geometric recurrence can be relaxed. We also show that if the i.i.d. input sequence (A(m)) is such that we can find a real number r0 > 1 with , then the exact convergence rate of πn to π is characterized by r0. Moreover, when the generating function of A is not defined for |z| > 1, we derive an upper bound for the distance between πn and π based on the moments of A.

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Clustering in Stochastic Asynchronous Algorithms for Distributed Simulations

Manita

Simonot²

2005

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Message sojourn time for TDM schemes with any buffer capacity

Simonot

Song²,

Thomesse³

1995

IEEE Trans. Commun.

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Real-time communications using TDMA-based multi-access protocol

Simonot¹,

Song

1997

Computer Communications

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F. Simonot

Worst-case deadline failure probability in real-time applications distributed over controller area network

Convergence rate of some semi-groups to their invariant probability

Quantitative Evaluation of the Safety of X-by-Wire Architecture subject to EMI Perturbations

Sur l'approximation de la distribution stationnaire d'une chaîne de Markov stochastiquement monotone

Characterization of convergence rates for the approximation of the stationary distribution of infinite monotone stochastic matrices

Clustering in Stochastic Asynchronous Algorithms for Distributed Simulations

Message sojourn time for TDM schemes with any buffer capacity

Real-time communications using TDMA-based multi-access protocol

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