Modeling the effect of temperature on dengue virus transmission with periodic delay differential equations
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Publication:2038814
DOI10.3934/mbe.2020230zbMath1467.92227OpenAlexW3035708571WikidataQ100312537 ScholiaQ100312537MaRDI QIDQ2038814
Haitao Song, Dan Tian, Chunhua Shan
Publication date: 7 July 2021
Published in: Mathematical Biosciences and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3934/mbe.2020230
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Cites Work
- A mathematical model for assessing control strategies against West Nile virus
- The impact of maturation delay of mosquitoes on the transmission of West Nile virus
- Lyapunov functions for a dengue disease transmission model
- A periodic epidemic model in a patchy environment
- Modeling the spread and control of dengue with limited public health resources
- Threshold dynamics for compartmental epidemic models in periodic environments
- Backward bifurcations in dengue transmission dynamics
- Analysis of a dengue disease transmission model
- A model for Chagas disease involving transmission by vectors and blood transfusion
- Competitive exclusion in a vector-host model for the dengue fever
- Influence of vertical and mechanical transmission on the dynamics of dengue disease
- Periodic phenomena and driving mechanisms in transmission of West Nile virus with maturation time
- Threshold dynamics in a time-delayed periodic SIS epidemic model
- Estimation of the reproduction number of dengue fever from spatial epidemic data
- Assessing the effects of vector control on dengue transmission
- Bifurcations and complex dynamics of an SIR model with the impact of the number of hospital beds
- A new model with delay for mosquito population dynamics
- Dynamics in a periodic competitive model with stage structure
- A Periodic Vector-Bias Malaria Model with Incubation Period
- A Climate-Based Malaria Transmission Model with Structured Vector Population
- An Impulsive Delay Inequality Involving Unbounded Time-Varying Delay and Applications
- Global Attractors and Steady States for Uniformly Persistent Dynamical Systems
- Dynamical systems in population biology
- Interaction of maturation delay and nonlinear birth in population and epidemic models
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