Transmission dynamics of a general temporal-spatial vector-host epidemic model with an application to the dengue fever in Guangdong, China
From MaRDI portal
Publication:2083287
DOI10.3934/DCDSB.2022069zbMath1500.92109OpenAlexW4226066417MaRDI QIDQ2083287
Publication date: 10 October 2022
Published in: Discrete and Continuous Dynamical Systems. Series B (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3934/dcdsb.2022069
basic reproduction numberthreshold dynamicsdengue feverspatial diffusionperiodic delaysvector-host disease
Related Items (3)
Spatial dynamics of a viral infection model with immune response and nonlinear incidence ⋮ Global attractivity for reaction–diffusion equations with periodic coefficients and time delays ⋮ Aggregation and classification of spatial dynamics of vector-borne disease in advective heterogeneous environment
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Viral dynamics model with CTL immune response incorporating antiretroviral therapy
- Basic reproduction ratios for periodic compartmental models with time delay
- Global properties of vector-host disease models with time delays
- Global analysis for delay virus dynamics model with Beddington-DeAngelis functional response
- Global dynamics of a dengue epidemic mathematical model
- Global analysis of a vector-host epidemic model with nonlinear incidences
- A theoretical approach to understanding population dynamics with seasonal developmental durations
- Dynamical behavior of epidemiological models with nonlinear incidence rates
- A generalization of the Kermack-McKendrick deterministic epidemic model
- A reaction-diffusion malaria model with seasonality and incubation period
- Modelling the transmission dynamics of two-strain Dengue in the presence awareness and vector control
- Spatial spreading model and dynamics of West Nile virus in birds and mosquitoes with free boundary
- A two-thresholds policy to interrupt transmission of West Nile virus to birds
- Global transmission dynamics of a zika virus model
- Theory and applications of partial functional differential equations
- Analysis of a dengue model with vertical transmission and application to the 2014 dengue outbreak in Guangdong Province, China
- A time-periodic dengue fever model in a heterogeneous environment
- Dynamics analysis of a Zika-dengue co-infection model with dengue vaccine and antibody-dependent enhancement
- Transmission dynamics of Zika virus with spatial structure -- a case study in Rio de Janeiro, Brazil
- Analyzing the control of dengue by releasing \textit{Wolbachia}-infected male mosquitoes through a delay differential equation model
- Optimal control and cost-effectiveness analysis of a Zika virus infection model with comprehensive interventions
- Dynamics of a time-periodic two-strain SIS epidemic model with diffusion and latent period
- Optimal control of vaccination in a vector-Borne reaction-diffusion model applied to Zika virus
- Basic reproduction ratios for periodic abstract functional differential equations (with application to a spatial model for Lyme disease)
- Threshold dynamics of a vector-borne disease model with spatial structure and vector-bias
- Threshold dynamics of a time periodic reaction-diffusion epidemic model with latent period
- Use of age-stage structural models to seek optimal \textit{Wolbachia}-infected male mosquito releases for mosquito-borne disease control
- A reaction-diffusion model of vector-borne disease with periodic delays
- Abstract Functional Differential Equations and Reaction-Diffusion Systems
- Spatial Dynamics of a Nonlocal Periodic Reaction-Diffusion Model with Stage Structure
- Basic Reproduction Numbers for Reaction-Diffusion Epidemic Models
- Spectral Bound and Reproduction Number for Infinite-Dimensional Population Structure and Time Heterogeneity
- Global Attractors and Steady States for Uniformly Persistent Dynamical Systems
- Dynamical systems in population biology
This page was built for publication: Transmission dynamics of a general temporal-spatial vector-host epidemic model with an application to the dengue fever in Guangdong, China
