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БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА. / Zakharov, V.; Balykina, Y.

в: Informatics and Automation, Том 20, № 5, 13.08.2021, стр. 1034-1064.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Zakharov, V & Balykina, Y 2021, 'БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА', Informatics and Automation, Том. 20, № 5, стр. 1034-1064. https://doi.org/10.15622/20.5.2

APA

Zakharov, V., & Balykina, Y. (2021). БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА. Informatics and Automation, 20(5), 1034-1064. https://doi.org/10.15622/20.5.2

Vancouver

Zakharov V, Balykina Y. БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА. Informatics and Automation. 2021 Авг. 13;20(5):1034-1064. https://doi.org/10.15622/20.5.2

Author

Zakharov, V. ; Balykina, Y. / БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА. в: Informatics and Automation. 2021 ; Том 20, № 5. стр. 1034-1064.

BibTeX

@article{eb58292cc26c4460887257430b3d3053,
title = "БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА",
abstract = "The paper examines the possibility of using an alternative approach to predicting statistical indicators of a new COVID-19 virus type epidemic. A systematic review of models for predicting epidemics of new infections in foreign and Russian literature is presented. The accuracy of the SIR model for the spring 2020 wave of COVID-19 epidemic forecast in Russia is analyzed. As an alternative to modeling the epidemic spread using the SIR model, a new CIR discrete stochastic model is proposed based on the balance of the epidemic indicators at the current and past time points. The new model describes the dynamics of the total number of cases (C), the total number of recoveries and deaths (R), and the number of active cases (I). The system parameters are the percentage increase in the C(t) value and the characteristic of the dynamic balance of the epidemiological process, first introduced in this paper. The principle of the dynamic balance of epidemiological process assumes that any process has the property of similarity between the value of the total number of cases in the past and the value of the total number of recoveries and deaths at present. To calculate the values of the dynamic balance characteristic, an integer linear programming problem is used. In general, the dynamic characteristic of the epidemiological process is not constant. An epidemiological process the dynamic characteristic of which is not constant is called non-stationary. To construct mid-term forecasts of indicators of the epidemiological process at intervals of stationarity of the epidemiological process, a special algorithm has been developed. The question of using this algorithm on the intervals of stationarity and non-stationarity is being examined. Examples of the CIR model application for making forecasts of the considered indicators for the epidemic in Russia in May-June 2020 are given.",
keywords = "COVID-19, Epidemic modeling of new viruses, Forecast, SIR models",
author = "V. Zakharov and Y. Balykina",
note = "Publisher Copyright: {\textcopyright} 2021 Sovero Press Publishing House. All rights reserved.",
year = "2021",
month = aug,
day = "13",
doi = "10.15622/20.5.2",
language = "русский",
volume = "20",
pages = "1034--1064",
journal = "SPIIRAS Proceedings",
issn = "2078-9181",
publisher = "Санкт-Петербургский институт информатики и автоматизации РАН",
number = "5",

}

RIS

TY - JOUR

T1 - БАЛАНСОВАЯ МОДЕЛЬ ЭПИДЕМИИ COVID-19 НА ОСНОВЕ ПРОЦЕНТНОГО ПРИРОСТА

AU - Zakharov, V.

AU - Balykina, Y.

N1 - Publisher Copyright: © 2021 Sovero Press Publishing House. All rights reserved.

PY - 2021/8/13

Y1 - 2021/8/13

N2 - The paper examines the possibility of using an alternative approach to predicting statistical indicators of a new COVID-19 virus type epidemic. A systematic review of models for predicting epidemics of new infections in foreign and Russian literature is presented. The accuracy of the SIR model for the spring 2020 wave of COVID-19 epidemic forecast in Russia is analyzed. As an alternative to modeling the epidemic spread using the SIR model, a new CIR discrete stochastic model is proposed based on the balance of the epidemic indicators at the current and past time points. The new model describes the dynamics of the total number of cases (C), the total number of recoveries and deaths (R), and the number of active cases (I). The system parameters are the percentage increase in the C(t) value and the characteristic of the dynamic balance of the epidemiological process, first introduced in this paper. The principle of the dynamic balance of epidemiological process assumes that any process has the property of similarity between the value of the total number of cases in the past and the value of the total number of recoveries and deaths at present. To calculate the values of the dynamic balance characteristic, an integer linear programming problem is used. In general, the dynamic characteristic of the epidemiological process is not constant. An epidemiological process the dynamic characteristic of which is not constant is called non-stationary. To construct mid-term forecasts of indicators of the epidemiological process at intervals of stationarity of the epidemiological process, a special algorithm has been developed. The question of using this algorithm on the intervals of stationarity and non-stationarity is being examined. Examples of the CIR model application for making forecasts of the considered indicators for the epidemic in Russia in May-June 2020 are given.

AB - The paper examines the possibility of using an alternative approach to predicting statistical indicators of a new COVID-19 virus type epidemic. A systematic review of models for predicting epidemics of new infections in foreign and Russian literature is presented. The accuracy of the SIR model for the spring 2020 wave of COVID-19 epidemic forecast in Russia is analyzed. As an alternative to modeling the epidemic spread using the SIR model, a new CIR discrete stochastic model is proposed based on the balance of the epidemic indicators at the current and past time points. The new model describes the dynamics of the total number of cases (C), the total number of recoveries and deaths (R), and the number of active cases (I). The system parameters are the percentage increase in the C(t) value and the characteristic of the dynamic balance of the epidemiological process, first introduced in this paper. The principle of the dynamic balance of epidemiological process assumes that any process has the property of similarity between the value of the total number of cases in the past and the value of the total number of recoveries and deaths at present. To calculate the values of the dynamic balance characteristic, an integer linear programming problem is used. In general, the dynamic characteristic of the epidemiological process is not constant. An epidemiological process the dynamic characteristic of which is not constant is called non-stationary. To construct mid-term forecasts of indicators of the epidemiological process at intervals of stationarity of the epidemiological process, a special algorithm has been developed. The question of using this algorithm on the intervals of stationarity and non-stationarity is being examined. Examples of the CIR model application for making forecasts of the considered indicators for the epidemic in Russia in May-June 2020 are given.

KW - COVID-19

KW - Epidemic modeling of new viruses

KW - Forecast

KW - SIR models

UR - http://www.scopus.com/inward/record.url?scp=85117619362&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/d64f417e-8bff-3f36-9a6d-3056e52a4fdb/

U2 - 10.15622/20.5.2

DO - 10.15622/20.5.2

M3 - статья

AN - SCOPUS:85117619362

VL - 20

SP - 1034

EP - 1064

JO - SPIIRAS Proceedings

JF - SPIIRAS Proceedings

SN - 2078-9181

IS - 5

ER -

ID: 87653690