Hetsron L. Nyandjo-Bamen, Jean Marie Ntaganda, Aurélien Tellier, Olivier Menoukeu-Pamen
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Stochastic extinction and persistence of a heterogeneous epidemiological model
We formulate a stochastic differential equation(SDE) model from a deterministic model of imperfect vaccination building on a recent analytical approach of We suggest it appears as Allen et al [5] 81(2):487-515, 2020. https://doi.org/10.1007/s00285-020-01516-8), which derivation procedure is based on the elementary events occurring during the epidemiological dynamics and their corresponding probabilities. We prove the global existence of a unique weak non-negative solution starting from the non-negative initial value of the formulated model. We compute the conditions under which extinction and persistence in mean hold, and illustrate our theoretical results using numerical simulations. Determining the stochastic outcome of epidemiological dynamics under imperfect vaccination is important to optimize vaccination campaigns.
期刊介绍:
JAMC is a broad based journal covering all branches of computational or applied mathematics with special encouragement to researchers in theoretical computer science and mathematical computing. Major areas, such as numerical analysis, discrete optimization, linear and nonlinear programming, theory of computation, control theory, theory of algorithms, computational logic, applied combinatorics, coding theory, cryptograhics, fuzzy theory with applications, differential equations with applications are all included. A large variety of scientific problems also necessarily involve Algebra, Analysis, Geometry, Probability and Statistics and so on. The journal welcomes research papers in all branches of mathematics which have some bearing on the application to scientific problems, including papers in the areas of Actuarial Science, Mathematical Biology, Mathematical Economics and Finance.
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