Applied Mathematics

Volume 5, Issue 19 (November 2014)

ISSN Print: 2152-7385   ISSN Online: 2152-7393

Google-based Impact Factor: 0.58  Citations  

On the Stability of Stochastic Jump Kinetics

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DOI: 10.4236/am.2014.519300    4,757 Downloads   5,663 Views  Citations
Author(s)

ABSTRACT

Motivated by the lack of a suitable constructive framework for analyzing popular stochastic models of Systems Biology, we devise conditions for existence and uniqueness of solutions to certain jump stochastic differential equations (SDEs). Working from simple examples we find reasonable and explicit assumptions on the driving coefficients for the SDE representation to make sense. By “reasonable” we mean that stronger assumptions generally do not hold for systems of practical interest. In particular, we argue against the traditional use of global Lipschitz conditions and certain common growth restrictions. By “explicit”, finally, we like to highlight the fact that the various constants occurring among our assumptions all can be determined once the model is fixed. We show how basic long time estimates and some limit results for perturbations can be derived in this setting such that these can be contrasted with the corresponding estimates from deterministic dynamics. The main complication is that the natural path-wise representation is generated by a counting measure with an intensity that depends nonlinearly on the state.

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Engblom, S. (2014) On the Stability of Stochastic Jump Kinetics. Applied Mathematics, 5, 3217-3239. doi: 10.4236/am.2014.519300.

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