R. Edwards, E. Foxall, T. J. Perkins
Published 2013-06-12Version 1
Let $G$ be a directed graph on finitely many vertices and edges, and assign a positive weight to each edge on $G$. Fix vertices $u$ and $v$ and consider the set of paths that start at $u$ and end at $v$, self-intersecting in any number of places along the way. For each path, sum the weights of its edges, and then list the path weights in increasing order. The asymptotic behaviour of this sequence is described, in terms of the structure and type of strongly connected components on the graph. As a special case, for a Markov chain the asymptotic probability of paths obeys either a power law scaling or a weaker type of scaling, depending on the structure of the transition matrix. This generalizes previous work by Mandelbrot and others, who established asymptotic power law scaling for special classes of Markov chains.
Comments: 23 pages, 2 figures
Journal: Electronic Journal of Linear Algebra, Vol. 23, pp. 966-988, December 2012
The Computation of Key Properties of Markov Chains via Perturbations
Waiting times and stopping probabilities for patterns in Markov chains
An invariance principle for the law of the iterated logarithm for additive functionals of Markov chains
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