Structural classification of continuous time Markov chains with applications

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This paper is motivated by examples from stochastic reaction network theory. The Q-matrix of a stochastic reaction network can be derived from the reaction graph, an edge-labelled directed graph encoding the jump vectors of an associated continuous time Markov chain on the invariant space (Formula presented.). An open question is how to decompose the space (Formula presented.) into neutral, trapping, and escaping states, and open and closed communicating classes, and whether this can be done from the reaction graph alone. Such general continuous time Markov chains can be understood as natural generalizations of birth-death processes, incorporating multiple different birth and death mechanisms. We characterize the structure of (Formula presented.) imposed by a general Q-matrix generating continuous time Markov chains with values in (Formula presented.), in terms of the set of jump vectors and their corresponding transition rate functions. Thus the setting is not limited to stochastic reaction networks. Furthermore, we define structural equivalence of two Q-matrices, and provide sufficient conditions for structural equivalence. Examples are abundant in applications. We apply the results to stochastic reaction networks, a Lotka-Volterra model in ecology, the EnvZ-OmpR system in systems biology, and a class of extended branching processes, none of which are birth-death processes.

OriginalsprogEngelsk
TidsskriftStochastics
Vol/bind94
Udgave nummer7
Sider (fra-til)1003-1030
ISSN1744-2508
DOI
StatusUdgivet - 2022

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