Your search keyword '"Ruiwen Wu"' showing total 4 results

1. A reaction-advection-diffusion model of cholera epidemics with seasonality and human behavior change

Author

Xueying Wang, Ruiwen Wu, and Xiao-Qiang Zhao

Subjects

Cholera, Applied Mathematics, Modeling and Simulation, Basic Reproduction Number, Humans, Epidemics, Agricultural and Biological Sciences (miscellaneous), Models, Biological, Vibrio cholerae

Abstract

Cholera is a water- and food-borne infectious disease caused by V. cholerae. To investigate multiple effects of human behavior change, seasonality and spatial heterogeneity on cholera spread, we propose a reaction-advection-diffusion model that incorporates human hosts and aquatic reservoir of V. cholerae. We derive the basic reproduction number [Formula: see text] for this system and then establish a threshold type result on its global dynamics in terms of [Formula: see text]. Further, we show that the bacterial loss at the downstream end of the river due to water flux can reduce the disease risk, and describe the asymptotic behavior of [Formula: see text] for small and large diffusion in a special case (where the diffusion rates of infected human and the pathogen are constant). We also study the transmission dynamics at the early stage of cholera outbreak numerically, and find that human behavior change may lower the infection level and delay the disease peak. Moreover, the relative rate of bacterial loss, together with convection rate, plays an important role in identifying the severely infected areas. Meanwhile spatial heterogeneity may dilute or amplify cholera infection, which in turn would increase the complexity of disease spread.

Published

2021

2. A West Nile Virus Transmission Model with Periodic Incubation Periods

Author

Ruiwen Wu, Feng-Bin Wang, and Xiao-Qiang Zhao

Subjects

Mosquito-borne disease, biology, West Nile virus, viruses, virus diseases, Seasonality, medicine.disease, biology.organism_classification, medicine.disease_cause, 01 natural sciences, Virology, nervous system diseases, 3. Good health, 010305 fluids & plasmas, law.invention, Flavivirus, Transmission (mechanics), law, Modeling and Simulation, 0103 physical sciences, medicine, Basic reproduction number, Incubation, Analysis

Abstract

West Nile virus (WNv) is a mosquito-borne disease caused by Flavivirus. To investigate the combined effects of vertical transmission, temperature-dependent incubation periods and seasonality on the...

Published

2019

3. A Reaction–Diffusion Model of Vector-Borne Disease with Periodic Delays

Author

Xiao-Qiang Zhao and Ruiwen Wu

Subjects

Steady state (electronics), Temperature sensitivity, Applied Mathematics, Mathematical analysis, General Engineering, 01 natural sciences, 010305 fluids & plasmas, 010101 applied mathematics, Malaria transmission, Modeling and Simulation, 0103 physical sciences, Reaction–diffusion system, 0101 mathematics, Constant (mathematics), Basic reproduction number, Disease transmission, Extrinsic incubation period, Mathematics

Abstract

A vector-borne disease is caused by a range of pathogens and transmitted to hosts through vectors. To investigate the multiple effects of the spatial heterogeneity, the temperature sensitivity of extrinsic incubation period and intrinsic incubation period, and the seasonality on disease transmission, we propose a nonlocal reaction–diffusion model of vector-borne disease with periodic delays. We introduce the basic reproduction number $$\mathfrak {R}_0$$ for this model and then establish a threshold-type result on its global dynamics in terms of $$\mathfrak {R}_0$$ . In the case where all the coefficients are constants, we also prove the global attractivity of the positive constant steady state when $$\mathfrak {R}_0>1$$ . Numerically, we study the malaria transmission in Maputo Province, Mozambique.

Published

2018

4. Threshold dynamics of a bat-borne rabies model with periodic incubation periods

Author

Feng-Bin Wang, Ruiwen Wu, and Xiao Yu

Subjects

Applied Mathematics, 010102 general mathematics, Dynamics (mechanics), General Engineering, Zoology, Outbreak, General Medicine, Biology, Seasonality, medicine.disease, 01 natural sciences, Viral infection, Incubation period, 010101 applied mathematics, Computational Mathematics, medicine, Rabies, 0101 mathematics, General Economics, Econometrics and Finance, Basic reproduction number, Incubation, Analysis

Abstract

Bat-borne rabies is a viral infection caused by lyssaviruses. To explore the complex interaction between bats and cattle, we develop a periodic compartment system with seasonality, temperature-dependent incubation period and different control measures. We derive the basic reproduction number R 0 and show it determines the global dynamics. In particular, we prove the non-existence of positive periodic solutions in the critical case where R 0 = 1 . Numerically, we observe that sufficient long time-varying incubation periods could potentially increase the disease outbreak risk.

Published

2021