Mathematics – Probability
Scientific paper
2007-01-29
Mathematics
Probability
24 pages, 2 figures
Scientific paper
We consider finite-state time-nonhomogeneous Markov chains where the probability of moving from state $i$ to state $j\neq i$ at time $n$ is $G(i,j)/n^\zeta$ for a ``generator'' matrix $G$ and strength parameter $\zeta>0$. In these chains, as time grows, the positions are less and less likely to change, and so form simple models of age-dependent time-reinforcing behaviors. These chains, however, exhibit some different, perhaps unexpected, asymptotic occupation laws depending on parameters. Although on the one hand it is shown that the asymptotic position converges to a point-mixture for all $\zeta>0$, on the other hand, the average position, when variously $0<\zeta<1$, $\zeta>1$ or $\zeta=1$, is shown to converges to a constant, a point-mixture, or a distribution $\mu_G$ with no atoms and full support on a certain simplex respectively. The last type of limit can be seen as a sort of ``spreading'' between the cases $0<\zeta<1$ and $\zeta>1$. In particular, when $G$ is appropriately chosen, $\mu_G$ is a Dirichlet distribution with certain parameters, reminiscent of results in Polya urns.
Dietz Zach
Sethuraman Sunder
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