Showing of reviews. As some have alluded to — not the easiest book to follow. If you are a seller for this product, would you like to suggest updates through seller support? Most relevant reviews See all 8 reviews. Thanks for telling us about the problem.
|Published (Last):||2 April 2010|
|PDF File Size:||6.1 Mb|
|ePub File Size:||11.5 Mb|
|Price:||Free* [*Free Regsitration Required]|
Susceptible humans can be infected when they are bitten by an infectious mosquito. They then progress through the exposed, infectious, and recovered classes, before reentering the susceptible class.
Susceptible mosquitoes can become infected when they bite infectious or recovered humans, and once infected they move through the exposed and infectious classes. Nonlinear Analysis: Real World Applications 53, Crossref Mathematical analysis of reinfection and relapse in malaria dynamics. Applied Mathematics and Computation , Bulletin of Mathematical Biology Crossref A framework for evaluating the effects of observational type and quality on vector-borne disease forecast.
Epidemics 30, Crossref Competitive exclusion in a multi-strain malaria transmission model with incubation period. Crossref An almost periodic Ross—Macdonald model with structured vector population in a patchy environment. Journal of Mathematical Biology , Crossref Mathematical analysis of a time delay visceral leishmaniasis model. Journal of Applied Mathematics and Computing Discrete Dynamics in Nature and Society , Crossref Modelling malaria dynamics with partial immunity and protected travellers: optimal control and cost-effectiveness analysis.
Journal of Biological Dynamics , Studies in Applied Mathematics Crossref Biopesticides improve efficiency of the sterile insect technique for controlling mosquito-driven dengue epidemics. Communications Biology Crossref Global properties of saturated chikungunya virus dynamics models with cellular infection and delays. Advances in Difference Equations Crossref Analysis of a vector-borne disease model with impulsive perturbation and reinfection.
Journal of Elliptic and Parabolic Equations , Crossref Modeling the population impacts of avian malaria on Hawaiian honeycreepers: Bifurcation analysis and implications for conservation. Mathematical Biosciences , Crossref Resurgence of malaria infection after mass treatment: a simulation study. Malaria Journal Bulletin of Mathematical Biology , Crossref Smoking epidemic model with density-dependent death rate and numerical sensitivity analysis.
Journal of Physics: Conference Series , Biophysical Reviews and Letters , Computational and Applied Mathematics Crossref Critical transitions in malaria transmission models are consistently generated by superinfection. Crossref Permanence of a regime-switching malaria transmission model. Physica A: Statistical Mechanics and its Applications , Crossref A stochastic epidemic model for the dynamics of two pathogens in a single tick population.
Theoretical Population Biology , Crossref Regional control for a spatially structured malaria model. Mathematical Methods in the Applied Sciences , Crossref Dynamical behaviors of a stochastic malaria model: A case study for Yunnan, China.
Crossref Dynamics analysis of a Zika—dengue co-infection model with dengue vaccine and antibody-dependent enhancement. Crossref Effects of climate change on Plasmodium vivax malaria transmission dynamics: A mathematical modeling approach.
Crossref The transmission dynamics of a within-and between-hosts malaria model. Ecological Complexity 38, Complexity , Crossref Weather-driven malaria transmission model with gonotrophic and sporogonic cycles.
Journal of Biological Dynamics sup1, Crossref Analysis of a vector-bias malaria transmission model with application to Mexico, Sudan and Democratic Republic of the Congo. Journal of Theoretical Biology , Mathematical and Computational Applications , Crossref Extended Abstracts Spring , Crossref Consumer-resource coexistence as a means of reducing infectious disease.
Crossref Modeling the transmission dynamics of Zika with sterile insect technique. Crossref Backward bifurcation analysis for two continuous and discrete epidemiological models. Crossref Mathematical modeling of malaria transmission global dynamics: taking into account the immature stages of the vectors.
Crossref Stochastic lattice-based modelling of malaria dynamics. Crossref A mathematical model for Zika virus transmission dynamics with a time-dependent mosquito biting rate. Theoretical Biology and Medical Modelling Crossref Implications of population-level immunity for the emergence of artemisinin-resistant malaria: a mathematical model. The Open Infectious Diseases Journal , Crossref A mathematical model of spatial transmission of vector-borne disease.
Mathematical Biology and Bioinformatics , Crossref Comparing the effectiveness of different strains of Wolbachia for controlling chikungunya, dengue fever, and zika.
The American Naturalist , International Journal of Applied and Computational Mathematics Crossref Slow and fast dynamics model of a Malaria with Sickle-Cell genetic disease with multi-stage infections of the mosquitoes population.
Applications of Fluid Dynamics, Journal of Applied Mathematics , Crossref A mathematical model of malaria transmission in a periodic environment. Crossref Mathematical model of malaria transmission dynamics with distributed delay and a wide class of nonlinear incidence rates. Crossref Mathematics of dengue transmission dynamics: Roles of vector vertical transmission and temperature fluctuations.
Infectious Disease Modelling 3, Crossref Co-dynamics of Pneumonia and Typhoid fever diseases with cost effective optimal control analysis. Crossref Maximizing the impact of malaria funding through allocative efficiency: using the right interventions in the right locations. Mathematics , Crossref A metapopulation model for the population dynamics of anopheles mosquito.
Crossref Optimal control problems of mosquito-borne disease subject to changes in feeding behavior of Aedes mosquitoes. Biosystems , Crossref Optimal control of a malaria model with asymptomatic class and superinfection. Crossref Global properties of vector—host disease models with time delays.
Crossref Mathematical analysis of a weather-driven model for the population ecology of mosquitoes. Mathematical Biosciences and Engineering , Crossref Analysis of a temperature- and rainfall-dependent model for malaria transmission dynamics. Crossref Optimal insecticide-treated bed-net coverage and malaria treatment in a malaria-HIV co-infection model. Crossref An almost periodic malaria transmission model with time-delayed input of vector.
Computational and Mathematical Methods in Medicine , International Scholarly Research Notices , Crossref Mathematical model of Ebola transmission dynamics with relapse and reinfection.
Crossref Vector-borne diseases models with residence times — A Lagrangian perspective. Crossref Mathematical model for the dynamics of visceral leishmaniasis-malaria co-infection. Crossref Observance of period-doubling bifurcation and chaos in an autonomous ODE model for malaria with vector demography. Theoretical Ecology , International Journal of Biomathematics , Crossref Modelling the effects of malaria infection on mosquito biting behaviour and attractiveness of humans.
Ricerche di Matematica , International Journal of Dynamics and Control. Crossref Hopf bifurcation and its stability for a vector-borne disease model with delay and reinfection.
How can mathematics be used to gain an understanding of population dynamics? This monograph introduces the theory of structured population dynamics and its applications, focusing on the asymptotic dynamics of deterministic models. This theory bridges the gap between the characteristics of individual organisms in a population and the dynamics of the total population as a whole. In this monograph, many applications that illustrate both the theory and a wide variety of biological issues are given, along with an interdisciplinary case study that illustrates the connection of models with the data and the experimental documentation of model predictions. The author also discusses the use of discrete and continuous models and presents a general modeling theory for structured population dynamics.
SIAM Journal on Applied Mathematics
Susceptible humans can be infected when they are bitten by an infectious mosquito. They then progress through the exposed, infectious, and recovered classes, before reentering the susceptible class. Susceptible mosquitoes can become infected when they bite infectious or recovered humans, and once infected they move through the exposed and infectious classes. Nonlinear Analysis: Real World Applications 53, Crossref Mathematical analysis of reinfection and relapse in malaria dynamics. Applied Mathematics and Computation , Bulletin of Mathematical Biology