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Two Models of the Influenza Epidemic. / Gubar, Elena; Fotina, Lidia; Nikitina, Irina; Zhitkova, Ekaterina.

Contributions to Game Theory and Management, 2012. Vol. 5. Издательство Санкт-Петербургского университета, 2012. p. 107-120.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research

Harvard

Gubar, E, Fotina, L, Nikitina, I & Zhitkova, E 2012, Two Models of the Influenza Epidemic. in Contributions to Game Theory and Management, 2012. Vol. 5. Издательство Санкт-Петербургского университета, pp. 107-120.

APA

Gubar, E., Fotina, L., Nikitina, I., & Zhitkova, E. (2012). Two Models of the Influenza Epidemic. In Contributions to Game Theory and Management, 2012. Vol. 5 (pp. 107-120). Издательство Санкт-Петербургского университета.

Vancouver

Gubar E, Fotina L, Nikitina I, Zhitkova E. Two Models of the Influenza Epidemic. In Contributions to Game Theory and Management, 2012. Vol. 5. Издательство Санкт-Петербургского университета. 2012. p. 107-120

Author

Gubar, Elena ; Fotina, Lidia ; Nikitina, Irina ; Zhitkova, Ekaterina. / Two Models of the Influenza Epidemic. Contributions to Game Theory and Management, 2012. Vol. 5. Издательство Санкт-Петербургского университета, 2012. pp. 107-120

BibTeX

@inproceedings{195cbeb92bb84b27934514e7cbd3b755,

title = "Two Models of the Influenza Epidemic",

abstract = "The main purpose of current work is constructing the evolutionary model of influenza epidemic in urban population and estimation the impact of the preventive measures to the population. Also in this work we select risk-group from the population and research the epidemic process in it. Total urban population and risk group are divided into three subgroups Susceptible, Infected and Recovered and during the epidemic individuals transfer from one subgroup to the other. During the epidemic season the quantitative structure of the subgroups is changed, but these changes could be different in risk-group and in vaccinated subgroup. In the model we assume that vaccination company occurs before season epidemic of influenza begins, to avoid repeated infection of vaccinated individuals. We construct an evolution of epidemic and take into account vaccination and infection expenses, from the society point of view. Numerical simulation are also presented in the paper.",

keywords = "Evolutionary game, vaccination problem, replicative dynamic, epidemic process, epidemic models, SIR model",

author = "Elena Gubar and Lidia Fotina and Irina Nikitina and Ekaterina Zhitkova",

year = "2012",

language = "English",

pages = "107--120",

booktitle = "Contributions to Game Theory and Management, 2012. Vol. 5",

publisher = "Издательство Санкт-Петербургского университета",

address = "Russian Federation",

}

RIS

TY - GEN

T1 - Two Models of the Influenza Epidemic

AU - Gubar, Elena

AU - Fotina, Lidia

AU - Nikitina, Irina

AU - Zhitkova, Ekaterina

PY - 2012

Y1 - 2012

N2 - The main purpose of current work is constructing the evolutionary model of influenza epidemic in urban population and estimation the impact of the preventive measures to the population. Also in this work we select risk-group from the population and research the epidemic process in it. Total urban population and risk group are divided into three subgroups Susceptible, Infected and Recovered and during the epidemic individuals transfer from one subgroup to the other. During the epidemic season the quantitative structure of the subgroups is changed, but these changes could be different in risk-group and in vaccinated subgroup. In the model we assume that vaccination company occurs before season epidemic of influenza begins, to avoid repeated infection of vaccinated individuals. We construct an evolution of epidemic and take into account vaccination and infection expenses, from the society point of view. Numerical simulation are also presented in the paper.

AB - The main purpose of current work is constructing the evolutionary model of influenza epidemic in urban population and estimation the impact of the preventive measures to the population. Also in this work we select risk-group from the population and research the epidemic process in it. Total urban population and risk group are divided into three subgroups Susceptible, Infected and Recovered and during the epidemic individuals transfer from one subgroup to the other. During the epidemic season the quantitative structure of the subgroups is changed, but these changes could be different in risk-group and in vaccinated subgroup. In the model we assume that vaccination company occurs before season epidemic of influenza begins, to avoid repeated infection of vaccinated individuals. We construct an evolution of epidemic and take into account vaccination and infection expenses, from the society point of view. Numerical simulation are also presented in the paper.

KW - Evolutionary game

KW - vaccination problem

KW - replicative dynamic

KW - epidemic process

KW - epidemic models

KW - SIR model

M3 - Conference contribution

SP - 107

EP - 120

BT - Contributions to Game Theory and Management, 2012. Vol. 5

PB - Издательство Санкт-Петербургского университета

ER -

ID: 4575184