Discussion on early warning, prevention and control of emerging infectious diseases from a macroscopic perspective based on big data and effective distance model: enlightenment of COVID-19 epidemic data in China
10.3760/cma.j.cn112338-20200306-00269
- VernacularTitle: 基于大数据与有效距离模型的突发急性传染病宏观预警及防控管理工作探讨:COVID-19疫情数据的启示
- Author:
Zhenkun WANG
1
;
Zhishui CHEN
1
;
Aihua DU
1
;
Congyi WANG
1
;
Hong LIU
1
;
Ziwei WANG
1
;
Jifa HU
1
Author Information
1. Department of Academic Research, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430030, China
- Publication Type:Journal Article
- Keywords:
COVID-19;
Effective distance;
Population floating;
Infectious diseases;
Early warning, prevention and control
- From:
Chinese Journal of Epidemiology
2020;41(0):E052-E052
- CountryChina
- Language:Chinese
-
Abstract:
Objective To provide a system for warning, preventing and controlling emerging infectious diseases from a macroscopic perspective, using the COVID-19 epidemic data and effective distance model. Methods The dates of hospitalization/isolation treatment of the first confirmed cases of COVID-19 and the cumulative numbers of confirmed cases in different provinces in China reported as of 23 February, 2020 were collected. The Location Based Service (LBS) big data platform of 'Baidu Migration' was employed to obtain the data of the proportion of the floating population from Wuhan to all parts of the country. Effective distance models and linear regression models were established to analyze the relationship between the effective distance and the arrival time of the epidemic as well as the number of cumulative confirmed cases at provincial and municipal levels. Results The arrival time of the epidemic and the cumulative number of confirmed cases of COVID-19 had significant linear relationship at both provincial and municipal levels in China, and the regression coefficients of each linear model were significant ( P <0.001). At the provincial level, the effective distance could explain about 71% of the variation of the model with arrival time along with around 90% of the variation for the model in the cumulative confirmed case magnitude; at the municipal level, the effective distance could explain about 66% of the variation for the model in arrival time, and about 85% of the variation of the model with the cumulative confirmed case magnitude. Conclusions The fitting degree of the models are good. The LBS big data and effective distance model can be used to estimate the track, time and extent of epidemic spread to provide useful reference for early warning, prevention and control of emerging infectious diseases.
