Stochastic extinction and persistence of a heterogeneous epidemiological model

Hetsron L. Nyandjo-Bamen; Jean Marie Ntaganda; Aurélien Tellier; Olivier Menoukeu-Pamen

doi:10.1007/s12190-024-02191-4

Stochastic extinction and persistence of a heterogeneous epidemiological model

Hetsron L. Nyandjo-Bamen, Jean Marie Ntaganda, Aurélien Tellier, Olivier Menoukeu-Pamen

Associate Professorship of Populationsgenetik

Research output: Contribution to journal › Article › peer-review

Abstract

We formulate a stochastic differential equation(SDE) model from a deterministic model of imperfect vaccination building on a recent analytical approach of 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.

Original language	English
Pages (from-to)	5603-5628
Number of pages	26
Journal	Journal of Applied Mathematics and Computing
Volume	70
Issue number	6
DOIs	https://doi.org/10.1007/s12190-024-02191-4
State	Published - Dec 2024

Keywords

60H30
92D30
Extinction
Imperfect vaccination
Mathematical model
Persistence
Primary 60H10
Secondary 92D25
Stochastic differential equations

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s12190-024-02191-4

Cite this

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abstract = "We formulate a stochastic differential equation(SDE) model from a deterministic model of imperfect vaccination building on a recent analytical approach of 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.",

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AU - Nyandjo-Bamen, Hetsron L.

AU - Ntaganda, Jean Marie

AU - Tellier, Aurélien

AU - Menoukeu-Pamen, Olivier

N1 - Publisher Copyright: © The Author(s) under exclusive licence to Korean Society for Informatics and Computational Applied Mathematics 2024.

PY - 2024/12

Y1 - 2024/12

N2 - We formulate a stochastic differential equation(SDE) model from a deterministic model of imperfect vaccination building on a recent analytical approach of 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.

AB - We formulate a stochastic differential equation(SDE) model from a deterministic model of imperfect vaccination building on a recent analytical approach of 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.

KW - 60H30

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KW - Imperfect vaccination

KW - Mathematical model

KW - Persistence

KW - Primary 60H10

KW - Secondary 92D25

KW - Stochastic differential equations

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Stochastic extinction and persistence of a heterogeneous epidemiological model

Abstract

Keywords

UN SDGs

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