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Dynamics analysis of dengue fever model with harmonic mean type under fractal-fractional derivative

Khaled Aldwoah, Mohammed A. ‬Almalahi, Kamal Shah, Muath Awadalla, Ria H. Egami

2024AIMS Mathematics21 citationsDOIOpen Access PDF

Abstract

<abstract><p>Dengue is a viral illness transmitted by Aedes mosquitoes and is a significant global threat. In this study, we developed a model of the dengue epidemic that incorporates larvicide and adulticide, as well as the harmonic mean incidence rate under fractal-fractional derivatives. We examined various theoretical aspects of the model, including nonnegativity, boundedness, existence, uniqueness, and stability. We computed the basic reproduction number $ \Re _{0} $ using the next-generation matrix. The model has two disease-free equilibriums, a trivial equilibrium, and a biologically realistic, along with one endemic equilibrium point. These findings enhanced our understanding of dengue transmission, providing valuable insights for awareness campaigns, control strategies, intervention approaches, decision support, guiding public health planning, and resource allocation to manage dengue effectively.</p></abstract>

Topics & Concepts

Dengue feverEpidemic modelUniquenessEquilibrium pointMathematicsBasic reproduction numberApplied mathematicsMedicineVirologyMathematical analysisEnvironmental healthDifferential equationPopulationMathematical and Theoretical Epidemiology and Ecology ModelsCOVID-19 epidemiological studiesMosquito-borne diseases and control