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Literature DB >> 8576654

An SIS epidemic model with variable population size and a delay.

Abstract

The SIS epidemiological model has births, natural deaths, disease-related deaths and a delay corresponding to the infectious period. The thresholds for persistence, equilibria and stability are determined. The persistence of the disease combined with the disease-related deaths can cause the population size to decrease to zero, to remain finite, or to grow exponentially with a smaller growth rate constant. For some parameter values, the endemic infective-fraction equilibrium is asymptotically stable, but for other parameter values, it is unstable and a surrounding periodic solution appears by Hopf bifurcation.

Entities: Disease

Mesh：

Year: 1995 PMID： 8576654 DOI： 10.1007/bf00178772

Source DB: PubMed Journal: J Math Biol ISSN： 0303-6812 Impact factor: 2.259

29 in total

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Authors: Ryan Lester Benjamin
Journal: Acta Biotheor Date: 2022-01-29 Impact factor: 1.185

6. Response: Commentary: Statistical Modeling for the Prediction of Infectious Disease Dissemination With Special Reference to COVID-19 Spread.

Authors: Subhash Kumar Yadav; Yusuf Akhter
Journal: Front Public Health Date: 2022-01-31

7. The outbreak pattern of SARS cases in China as revealed by a mathematical model.

Authors: Zhibin Zhang
Journal: Ecol Modell Date: 2007-03-06 Impact factor: 2.974

8. On build-up of epidemiologic models-Development of a SEI³RSD model for the spread of SARS-CoV-2.

Authors: Michael Wolff
Journal: Z Angew Math Mech Date: 2020-10-13 Impact factor: 1.759

8 in total

An SIS epidemic model with variable population size and a delay.

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5. The Hybrid Incidence Susceptible-Transmissible-Removed Model for Pandemics : Scaling Time to Predict an Epidemic's Population Density Dependent Temporal Propagation.

6. Response: Commentary: Statistical Modeling for the Prediction of Infectious Disease Dissemination With Special Reference to COVID-19 Spread.

7. The outbreak pattern of SARS cases in China as revealed by a mathematical model.

8. On build-up of epidemiologic models-Development of a SEI³RSD model for the spread of SARS-CoV-2.