Generality of endemic prevalence formulae
From MaRDI portal
Publication:900716
DOI10.1016/j.mbs.2015.08.011zbMath1351.92047OpenAlexW1157571282WikidataQ40591959 ScholiaQ40591959MaRDI QIDQ900716
Publication date: 22 December 2015
Published in: Mathematical Biosciences (Search for Journal in Brave)
Full work available at URL: http://europepmc.org/articles/pmc7094683
Related Items
Precise estimates of persistence time for SIS infections in heterogeneous populations, Persistence time of SIS infections in heterogeneous populations and networks
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Generality of the final size formula for an epidemic of a newly invading infectious disease
- The effect of population heterogeneities upon spread of infection
- Global stability of the endemic equilibrium in infinite dimension: Lyapunov functions and positive operators
- A note on the derivation of epidemic final sizes
- The spatial spread and final size of the deterministic non-reducible n- type epidemic
- Proportionate mixing models for age-dependent infection transmission
- Global stability of multi-group epidemic models with distributed delays
- Stability of the endemic equilibrium in epidemic models with subpopulations
- Integral equation models for endemic infectious diseases
- Prelude to Hopf bifurcation in an epidemic model: Analysis of a characteristic equation associated with a nonlinear Volterra integral equation
- Threshold and stability results for an age-structured epidemic model
- An age dependent epidemic model
- A deterministic model for gonorrhea in a nonhomogeneous population
- Novel bivariate moment-closure approximations
- Endemic threshold results in an age-duration-structured population model for HIV infection
- On the asymptotic behavior of the stochastic and deterministic models of an epidemic
- Global behavior of a multi-group SIS epidemic model with age structure
- The NBUL class of life distribution and replacement policy comparisons
- The Basic Reproduction Number of an Infectious Disease in a Stable Population: The Impact of Population Growth Rate on the Eradication Threshold
- On the formulation of epidemic models (an appraisal of Kermack and McKendrick)
- Estimation of the Basic Reproduction Number for Infectious Diseases from Age-Stratified Serological Survey Data
- On the Time to Extinction in Recurrent Epidemics
- Contributions to the mathematical theory of epidemics. II. —The problem of endemicity
- Endemic Models with Arbitrarily Distributed Periods of Infection I: Fundamental Properties of the Model
- Contributions to the mathematical theory of epidemics. III.—Further studies of the problem of endemicity
- Outcomes of epidemic models with general infection and removal rate functions at certain stopping times
