Optimal control of dengue vector based on a reaction-diffusion model
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Publication:2079332
DOI10.1016/j.matcom.2022.06.026OpenAlexW4283795411WikidataQ114149823 ScholiaQ114149823MaRDI QIDQ2079332
Publication date: 29 September 2022
Published in: Mathematics and Computers in Simulation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.matcom.2022.06.026
Cites Work
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- Qualitative analysis for a Wolbachia infection model with diffusion
- An analysis of a mathematical model describing the geographic spread of dengue disease
- Optimal control strategies for dengue transmission in Pakistan
- A sex-structured model with birth pulse and release strategy for the spread of \textit{Wolbachia} in mosquito population
- Assessing the efficiency of \textit{Wolbachia} driven \textit{Aedes} mosquito suppression by delay differential equations
- Existence and uniqueness of periodic orbits in a discrete model on \textit{Wolbachia} infection frequency
- Modeling and control of mosquito-borne diseases with \textit{Wolbachia} and insecticides
- The threshold infection level for Wolbachia invasion in a two-sex mosquito population model
- Application of Caputo-Fabrizio operator to suppress the Aedes Aegypti mosquitoes via Wolbachia: an LMI approach
- Optimal control of a multi-patch dengue model under the influence of Wolbachia bacterium
- An impulsive model for Wolbachia infection control of mosquito-borne diseases with general birth and death rate functions
- Vaccination models and optimal control strategies to dengue
- Optimal control of mitigation strategies for dengue virus transmission
- Personal protective strategies for dengue disease: simulations in two coexisting virus serotypes scenarios
- The impact of \textit{Wolbachia} on dengue transmission dynamics in an SEI-SIS model
- Analysis of a host-vector dynamics of a dengue disease model with optimal vector control strategy
- Two-sex mosquito model for the persistence ofWolbachia
- Asymptotic behavior of a competition—diffusion system in population dynamics
- Stability Properties of Solutions to Systems of Reaction-Diffusion Equations
- Modeling the dynamics ofWolbachia-infected and uninfectedAedes aegypti populations by delay differential equations
- Optimal control of dengue epidemic outbreaks under limited resources
- Optimal Releases for Population Replacement Strategies: Application to Wolbachia
- Effect of partial immunity on transmission dynamics of dengue disease with optimal control
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