Dynamical analysis of a spatio-temporal model encompassing the avian flu transmission in human population
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Publication:6586097
DOI10.1007/S12190-024-02070-YzbMATH Open1542.92158MaRDI QIDQ6586097
L. Shangerganesh, Sunil Kumar, S. I. Hariharan
Publication date: 12 August 2024
Published in: Journal of Applied Mathematics and Computing (Search for Journal in Brave)
Cites Work
- Title not available (Why is that?)
- Nonlinear dynamics of avian influenza epidemic models
- Avian-human influenza epidemic model
- Avian-human influenza epidemic model with diffusion
- Comparison theorems for ordinary differential equations with general boundary conditions
- Global dynamics of a stochastic avian-human influenza epidemic model with logistic growth for avian population
- Reproduction numbers and sub-threshold endemic equilibria for compartmental models of disease transmission
- Robust persistence for semidynamical systems.
- Global threshold analysis on a diffusive host-pathogen model with hyperinfectivity and nonlinear incidence functions
- Structure preserving numerical analysis of HIV and CD4+T-cells reaction diffusion model in two space dimensions
- Avian-human influenza epidemic model with diffusion, nonlocal delay and spatial homogeneous environment
- A delayed avian influenza model with avian slaughter: stability analysis and optimal control
- Qualitative dynamics of lowly- and highly-pathogenic avian influenza strains
- Abstract Functional Differential Equations and Reaction-Diffusion Systems
- APPROXIMATE TRAVELING WAVE SOLUTION OF AVIAN FLU TELEGRAPH REACTION DIFFUSION EQUATION
- Threshold dynamics of reaction–diffusion partial differential equations model of Ebola virus disease
- An Introduction to Partial Differential Equations
- Basic Reproduction Numbers for Reaction-Diffusion Epidemic Models
- Stability analysis and numerical simulations of spatiotemporal HIV CD4+ T cell model with drug therapy
- Spectral Bound and Reproduction Number for Infinite-Dimensional Population Structure and Time Heterogeneity
- A fractional order epidemic model and simulation for avian influenza dynamics
- Global Attractors and Steady States for Uniformly Persistent Dynamical Systems
- Dynamical analysis of a fractional-order avian-human influenza epidemic model with logistic growth for avian population
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