Optimal control for dengue transmission based on a model with reinfection and treatment
From MaRDI portal
Publication:6645859
DOI10.1080/08898480.2024.2394659MaRDI QIDQ6645859
R. Prem Kumar, Juan J. Nieto, G. S. Mahapatra, P. K. Santra
Publication date: 29 November 2024
Published in: Mathematical Population Studies (Search for Journal in Brave)
Epidemiology (92D30) Existence theories for optimal control problems involving ordinary differential equations (49J15) Global stability of solutions to ordinary differential equations (34D23)
Cites Work
- Modelling the use of \textit{Wolbachia} to control dengue fever transmission
- Optimal control of a vector borne disease with horizontal transmission
- Causes of backward bifurcations in some epidemiological models
- Characterizations and stable tests for the Routh--Hurwitz conditions and for total positivity
- Modeling the spread and control of dengue with limited public health resources
- Determining important parameters in the spread of malaria through the sensitivity analysis of a mathematical model
- Optimal control of vector-borne diseases: Treatment and prevention
- Wolbachia spreading dynamics in mosquitoes with imperfect maternal transmission
- A vector-host epidemic model with spatial structure and age of infection
- Effect of active case finding on dengue control: implications from a mathematical model
- Dynamical models of tuberculosis and their applications
- Modeling impact of temperature and human movement on the persistence of dengue disease
- The effect of reinfection with the same serotype on dengue transmission dynamics
- Modeling the relationship between antibody-dependent enhancement and disease severity in secondary dengue infection
- Optimal control of a dengue-Dengvaxia model: comparison between vaccination and vector control
- A periodic dengue model with diapause effect and control measures
- Modeling the uncertainty in epidemiological models through interval analysis considering actual data from two municipalities in Colombia affected by dengue
- Global stability of SAIRS epidemic models
- Vaccination and vector control effect on dengue virus transmission dynamics: modelling and simulation
- Infection, reinfection, and vaccination under suboptimal immune protection: epidemiological perspectives
- Final evolutions for simplified multistrain/two-stream model for tuberculosis and Dengue fever
- Dynamics of a two-sex model for the population ecology of dengue mosquitoes in the presence of \textit{Wolbachia}
- Descartes' rule of signs, Newton polygons, and polynomials over hyperfields
- Stage-structured transmission model incorporating secondary dengue infection
- The development of a deterministic dengue epidemic model with the influence of temperature: a case study in Malaysia
- Effect of daily periodic human movement on dengue dynamics: the case of the 2010 outbreak in Hermosillo, Mexico
- Modelling the host immune response to mature and immature dengue viruses
- Assessing the impact of treatment on the dynamics of dengue fever: a case study of India
- Dynamics of a time-periodic two-strain SIS epidemic model with diffusion and latent period
- Vaccination models and optimal control strategies to dengue
- The role of residence times in two-patch dengue transmission dynamics and optimal strategies
- The effect of demographic and environmental variability on disease outbreak for a dengue model with a seasonally varying vector population
- The consequences of switching strategies in a two-player iterated survival game
- Transmission dynamics of multi-strain dengue virus with cross-immunity
- Personal protective strategies for dengue disease: simulations in two coexisting virus serotypes scenarios
- Two-sex mosquito model for the persistence ofWolbachia
- Ordinary Differential Equations
- Modeling the impact of early case detection on dengue transmission: deterministic vs. stochastic
- Prediction of dengue cases based on human mobility and seasonality—An example for the city of Jakarta
- Dynamical Study of a Vector Host Epidemic Model With Non-Monotone Incidence
- Optimal control of dengue epidemic outbreaks under limited resources
- Bioeconomic perspectives to an optimal control dengue model
- Understanding dengue fever dynamics: a study of seasonality in vector-borne disease models
- Concept and solution of digital twin based on a Stieltjes differential equation
- Final size of the epidemic for metapopulation vector-borne diseases
This page was built for publication: Optimal control for dengue transmission based on a model with reinfection and treatment
