Modeling the control of COVID-19: impact of policy interventions and meteorological factors

Modeling the control of COVID-19: impact of policy interventions and meteorological factors

In this article we propose a dynamical model with seven compartments to describe the transmission of COVID-19 in China. The home quarantine strategy has played a vital role in controlling the disease spread. Based on a Least-Squares procedure and officially published data, the estimation of para...

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Bibliographic Details
Main Authors: Jiwei Jia, Jian Ding, Siyu Liu, Guidong Liao, Jingzhi Li
Format: Article
Language:English
Published: Texas State University 2020-03-01
Series:Electronic Journal of Differential Equations
Subjects:
covid-19
dynamical model
isolation strategy
vaccination strategy
meteorological index
Online Access:http://ejde.math.txstate.edu/Volumes/2020/23/abstr.html
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spelling doaj-ce65912eea46415fb398bfca27014b192020-11-25T01:44:06ZengTexas State UniversityElectronic Journal of Differential Equations1072-66912020-03-01202023,124Modeling the control of COVID-19: impact of policy interventions and meteorological factorsJiwei Jia0Jian Ding1Siyu Liu2Guidong Liao3Jingzhi Li4 Jilin Univ. Changchun, Jilin, China Jilin Univ. Changchun, Jilin, China Jilin Univ. Changchun, Jilin, China Jilin Univ. Changchun, Jilin, China Southern Univ. of Science and Tech., Guangdong, China In this article we propose a dynamical model with seven compartments to describe the transmission of COVID-19 in China. The home quarantine strategy has played a vital role in controlling the disease spread. Based on a Least-Squares procedure and officially published data, the estimation of parameters for the proposed model is obtained. The control reproduction number of most provinces in China are analyzed. Attention that the quarantine period must be long enough. Once the control strategy is removed, the disease still has high risk of human-to-human transmission continuously. In the study, a comprehensive meteorological index is introduced to represent the impact of meteorological factors. The effectiveness of vaccination is also considered in the model. We design detailed vaccination strategies for COVID-19 in different control phases and show the effectiveness of large scale vaccination.http://ejde.math.txstate.edu/Volumes/2020/23/abstr.htmlcovid-19dynamical modelisolation strategyvaccination strategymeteorological index
collection DOAJ
language English
format Article
sources DOAJ
author Jiwei Jia
Jian Ding
Siyu Liu
Guidong Liao
Jingzhi Li
spellingShingle Jiwei Jia
Jian Ding
Siyu Liu
Guidong Liao
Jingzhi Li
Modeling the control of COVID-19: impact of policy interventions and meteorological factors
Electronic Journal of Differential Equations
covid-19
dynamical model
isolation strategy
vaccination strategy
meteorological index
author_facet Jiwei Jia
Jian Ding
Siyu Liu
Guidong Liao
Jingzhi Li
author_sort Jiwei Jia
title Modeling the control of COVID-19: impact of policy interventions and meteorological factors
title_short Modeling the control of COVID-19: impact of policy interventions and meteorological factors
title_full Modeling the control of COVID-19: impact of policy interventions and meteorological factors
title_fullStr Modeling the control of COVID-19: impact of policy interventions and meteorological factors
title_full_unstemmed Modeling the control of COVID-19: impact of policy interventions and meteorological factors
title_sort modeling the control of covid-19: impact of policy interventions and meteorological factors
publisher Texas State University
series Electronic Journal of Differential Equations
issn 1072-6691
publishDate 2020-03-01
description In this article we propose a dynamical model with seven compartments to describe the transmission of COVID-19 in China. The home quarantine strategy has played a vital role in controlling the disease spread. Based on a Least-Squares procedure and officially published data, the estimation of parameters for the proposed model is obtained. The control reproduction number of most provinces in China are analyzed. Attention that the quarantine period must be long enough. Once the control strategy is removed, the disease still has high risk of human-to-human transmission continuously. In the study, a comprehensive meteorological index is introduced to represent the impact of meteorological factors. The effectiveness of vaccination is also considered in the model. We design detailed vaccination strategies for COVID-19 in different control phases and show the effectiveness of large scale vaccination.
topic covid-19
dynamical model
isolation strategy
vaccination strategy
meteorological index
url http://ejde.math.txstate.edu/Volumes/2020/23/abstr.html
work_keys_str_mv AT jiweijia modelingthecontrolofcovid19impactofpolicyinterventionsandmeteorologicalfactors
AT jianding modelingthecontrolofcovid19impactofpolicyinterventionsandmeteorologicalfactors
AT siyuliu modelingthecontrolofcovid19impactofpolicyinterventionsandmeteorologicalfactors
AT guidongliao modelingthecontrolofcovid19impactofpolicyinterventionsandmeteorologicalfactors
AT jingzhili modelingthecontrolofcovid19impactofpolicyinterventionsandmeteorologicalfactors
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