SIRV fractional epidemic model of influenza with vaccine game theory and stability analysis

SIRV fractional epidemic model of influenza with vaccine game theory and stability analysis

In this paper, we developed a SIRV epidemic model based on a vaccination game, incorporating vaccination dynamics and data memory effects using the Caputo fractional derivative. This approach effectively captured the nonlocal and power-law characteristics of influenza transmission. We confirmed the...

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Bibliographic Details
Main Authors: Qun Dai, Zeheng Wang
Format: Article
Language:English
Published: AIMS Press 2024-12-01
Series:Electronic Research Archive
Subjects:
influenza
vaccination game
caputo fractional derivative
ulam-hyers stability
lyapunov stability
Online Access:https://www.aimspress.com/article/doi/10.3934/era.2024318
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Summary:In this paper, we developed a SIRV epidemic model based on a vaccination game, incorporating vaccination dynamics and data memory effects using the Caputo fractional derivative. This approach effectively captured the nonlocal and power-law characteristics of influenza transmission. We confirmed the model's biological well-posedness, proved the uniqueness and existence of solutions, and analyzed stability. Furthermore, we established global Ulam-Hyers stability. The results showed that the epidemic incidence depended on the number of reproductions in the system. Through the Grünwald-Letnikov method, we developed the numerical simulations. We validated our theoretical findings and provided insights into the impact of vaccination on influenza progression. Our simulations revealed that strategic vaccination decisions were influenced by individual perceptions of the benefits and costs to achieving control of the influenza disease.
ISSN:2688-1594

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