Stability analysis of a fractional order model for the HIV/AIDS epidemic in a patchy environment
From MaRDI portal
Publication:1624647
DOI10.1016/j.cam.2018.06.055zbMath1401.92186OpenAlexW2844498380MaRDI QIDQ1624647
Hossein Kheiri, Mohsen A. Jafari
Publication date: 16 November 2018
Published in: Journal of Computational and Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cam.2018.06.055
Epidemiology (92D30) Applications of optimal control and differential games (49N90) Fractional derivatives and integrals (26A33) Global stability of solutions to ordinary differential equations (34D23)
Related Items (28)
An efficient algorithm for solving the fractional optimal control of SIRV epidemic model with a combination of vaccination and treatment ⋮ Global dynamics of a fractional order model for the transmission of HIV epidemic with optimal control ⋮ Global asymptotic stability of a general fractional-order single-species model ⋮ Dynamical analysis of a fractional order model incorporating fear in the disease transmission rate of COVID-19 ⋮ Epidemiological analysis of fractional order COVID-19 model with Mittag-Leffler kernel ⋮ The Chebyshev wavelet method (CWM) for the numerical solution of fractional HIV infection of CD\(4^+\) T cells model ⋮ Free terminal time optimal control of a fractional-order model for the HIV/AIDS epidemic ⋮ Global stability of switched HIV/AIDS models with drug treatment involving Caputo-fractional derivatives ⋮ A Caputo-Fabrizio fractional differential equation model for HIV/AIDS with treatment compartment ⋮ A multi-city epidemiological model based on cellular automata and complex networks for the COVID-19 ⋮ A fractional-order SEIHDR model for COVID-19 with inter-city networked coupling effects ⋮ Stability analysis of an HIV/AIDS epidemic model with sexual transmission in a patchy environment ⋮ Global stability and optimal control of a two-patch tuberculosis epidemic model using fractional-order derivatives ⋮ Dynamics of fractional order HIV infection model with antibody and cytotoxic t-lymphocyte immune responses ⋮ Mathematical analysis of the dynamics of a fractional‐order tuberculosis epidemic in a patchy environment under the influence of re‐infection ⋮ On existence and continuity results of solution for multi-time scale fractional stochastic differential equation ⋮ Dynamical analysis of two fractional-order SIQRA malware propagation models and their discretizations ⋮ Is reinfection negligible effect in COVID‐19? A mathematical study on the effects of reinfection in COVID‐19 ⋮ Unnamed Item ⋮ Memory and media coverage effect on an HIV/AIDS epidemic model with treatment ⋮ Lyapunov functions for investigating stability properties of a fractional-order computer virus propagation model ⋮ Stability of a fractional order SEIR model with general incidence ⋮ Dynamics of a new HIV model with the activation status of infected cells ⋮ Epidemic dynamics of a fractional-order SIS infectious network model ⋮ Global dynamics of a fractional-order SIR epidemic model with memory ⋮ Estimating the impact of antiretroviral therapy on HIV-TB co-infection: Optimal strategy prediction ⋮ Fractional optimal control of an HIV/AIDS epidemic model with random testing and contact tracing ⋮ Dynamical behavior of a stochastic multigroup staged-progression HIV model with saturated incidence rate and higher-order perturbations
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Campus quarantine (\textit{Fengxiao}) for curbing emergent infectious diseases: lessons from mitigating A/H1N1 in Xi'an, China
- Fractional dynamical system and its linearization theorem
- Modeling the spatial spread of rift valley fever in Egypt
- An SIS patch model with variable transmission coefficients
- Fractional-order nonlinear systems. Modeling, analysis and simulation
- Convergence of the forward-backward sweep method in optimal control
- Generalized Taylor's formula
- Global existence theory and chaos control of fractional differential equations
- An epidemic patchy model with entry-exit screening
- The effect of vaccines on backward bifurcation in a fractional order HIV model
- Stability analysis of an HIV/AIDS epidemic model with treatment
- Global-stability problem for coupled systems of differential equations on networks
- Fractional differential equations. An introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications
- Uniform persistence and flows near a closed positively invariant set
- On Mittag-Leffler-type functions in fractional evolution processes
- Global dynamics of a SEIR model with varying total population size
- Detailed error analysis for a fractional Adams method
- A predictor-corrector approach for the numerical solution of fractional differential equations
- Reproduction numbers and sub-threshold endemic equilibria for compartmental models of disease transmission
- Volterra-type Lyapunov functions for fractional-order epidemic systems
- Numerical modeling of fractional-order biological systems
- Stability analysis for nonlinear fractional-order systems based on comparison principle
- A cholera model in a patchy environment with water and human movement
- A model for disease transmission in a patchy environment
- The effect of global travel on the spread of SARS
- Mathematical epidemiology of HIV/AIDS in Cuba during the period 1986--2000
- A general formulation and solution scheme for fractional optimal control problems
- Dynamical systems: Stability theory and applications
- Optimal strategy for controlling the spread of HIV/AIDS disease: a case study of South Africa
- A graph-theoretic approach to the method of global Lyapunov functions
- A multi-city epidemic model
- General formulation for the numerical solution of optimal control problems
- The Theory of the Chemostat
- A multi-species epidemic model with spatial dynamics
This page was built for publication: Stability analysis of a fractional order model for the HIV/AIDS epidemic in a patchy environment
