Spatiotemporal dynamics of a generalized HBV infection model with capsids and adaptive immunity
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Publication:2001758
DOI10.1007/s40819-019-0651-xzbMath1417.92190OpenAlexW2944397212WikidataQ127918258 ScholiaQ127918258MaRDI QIDQ2001758
Publication date: 11 July 2019
Published in: International Journal of Applied and Computational Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s40819-019-0651-x
Epidemiology (92D30) Stability in context of PDEs (35B35) PDEs in connection with biology, chemistry and other natural sciences (35Q92)
Related Items (5)
Consistent discrete global dynamics of a general initial boundary value problem for hepatitis B virus infection with capsids and adaptive immunity ⋮ A generalized distributed delay model for hepatitis B virus infection with two modes of transmission and adaptive immunity: A mathematical study ⋮ Spatiotemporal Dynamics of Fractional Hepatitis B Virus Infection Model with Humoral and Cellular Immunity ⋮ On an age-structured hepatitis B virus infection model with HBV DNA-containing capsids ⋮ Spatiotemporal dynamics of a fractional model for hepatitis B virus infection with cellular immunity
Cites Work
- Unnamed Item
- Unnamed Item
- An off-line NMPC strategy for continuous-time nonlinear systems using an extended modal series method
- Global stability of one and two discrete delay models for chronic hepatitis B infection with HBV DNA-containing capsids
- A generalized HBV model with diffusion and two delays
- Effect of discretization on dynamical behavior in an epidemiological model
- Chronic hepatitis B infection and HBV DNA-containing capsids: modeling and analysis
- Geometric theory of semilinear parabolic equations
- Semilinear functional differential equations in Banach space
- Introduction to functional differential equations
- An HBV model with diffusion and time delay
- Global stability of a diffusive and delayed virus dynamics model with Crowley-Martin incidence function and CTL immune response
- Discretization and dynamic consistency of a delayed and diffusive viral infection model
- A new fractional analysis on the interaction of HIV with \(\text{CD4}^+\) T-cells
- Global stability of a diffusive and delayed HBV infection model with HBV DNA-containing capsids and general incidence rate
- Dynamic consistent NSFD scheme for a delayed viral infection model with immune response and nonlinear incidence
- Global properties of a HBV infection model with HBV DNA-containing capsids and CTL immune response
- Dynamics of a delayed diffusive HBV infection model with capsids and CTL immune response
- Theory and applications of partial functional differential equations
- Mathematical analysis of a virus dynamics model with general incidence rate and cure rate
- Analysis of a HBV model with diffusion and time delay
- Global stability of a diffusive and delayed virus infection model with general incidence function and adaptive immune response
- Global stability of a diffusive and delayed virus dynamics model with Beddington-DeAngelis incidence function and CTL immune response
- A numerical method for delayed partial differential equations describing infectious diseases
- On an accurate discretization of a variable-order fractional reaction-diffusion equation
- Modeling the mechanisms of acute hepatitis B virus infection
- Dynamics analysis and simulation of a modified HIV infection model with a saturated infection rate
- Stability analysis of a delayed social epidemics model with general contact rate and its optimal control
- A non-standard finite difference scheme for a diffusive HBV infection model with capsids and time delay
- Abstract Functional Differential Equations and Reaction-Diffusion Systems
- Existence and Stability for Partial Functional Differential Equations
- Dynamics of a Stochastic Viral Infection Model with Immune Response
- Dynamics of a diffusion-driven HBV infection model with capsids and time delay
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