Positive Explicit and Implicit Computational Techniques for Reaction-Diffusion Epidemic Model of Dengue Disease Dynamics
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Date
2020
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Springer
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GOLD
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Abstract
The aim of this work is to develop a novel explicit unconditionally positivity preserving finite difference (FD) scheme and an implicit positive FD scheme for the numerical solution of dengue epidemic reaction-diffusion model with incubation period of virus. The proposed schemes are unconditionally stable and preserve all the essential properties of the solution of the dengue reaction diffusion model. This proposed FD schemes are unconditionally dynamically consistent with positivity property and converge to the true equilibrium points of dengue epidemic reaction diffusion system. Comparison of the proposed scheme with the well-known existing techniques is also presented. The time efficiency of both the proposed schemes is also compared, with the two widely used techniques.
Description
Ahmed, Nauman/0000-0003-1742-585X; Ur-Rehman, Aziz-/0009-0007-4185-7675; Rafiq, Muhammad/0000-0002-2165-3479
Keywords
Structure Preserving Methods, Finite Difference Schemes, Dengue Model, Diffusion Epidemic System, Numerical Simulations, Epidemic Models, Epistemology, Mathematical analysis, Diffusion, Differential equation, Biochemistry, Genetics and Molecular Biology, Virology, Health Sciences, Numerical simulations, QA1-939, Genetics, FOS: Mathematics, Work (physics), Dengue model, Anomalous Diffusion Modeling and Analysis, Structure preserving methods, Scheme (mathematics), Finite difference schemes, Diffusion epidemic system, Evolutionary Dynamics of Genetic Adaptation and Mutation, Physics, Public Health, Environmental and Occupational Health, Life Sciences, Partial differential equation, Dengue fever, Applied mathematics, FOS: Philosophy, ethics and religion, Philosophy, Reaction–diffusion system, Disease Transmission and Population Dynamics, FOS: Biological sciences, Modeling and Simulation, Physical Sciences, Medicine, Property (philosophy), Thermodynamics, Mathematics, Ordinary differential equation, Finite difference and finite volume methods for ordinary differential equations, Epidemiology, Fractional ordinary differential equations, numerical simulations, Finite difference methods for initial value and initial-boundary value problems involving PDEs, structure preserving methods, Reaction-diffusion equations, diffusion epidemic system, dengue model, finite difference schemes
Turkish CoHE Thesis Center URL
Fields of Science
01 natural sciences, 0103 physical sciences, 0101 mathematics
Citation
Ahmed, Nauman...et al. (2020). "Positive explicit and implicit computational techniques for reaction-diffusion epidemic model of dengue disease dynamics", Advances in Difference Equations, Vol. 2020, No. 1.
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Q1
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OpenCitations Citation Count
5
Source
Advances in Difference Equations
Volume
2020
Issue
1
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Scopus : 12
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10.47018351
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16
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