Retrospective analysis of the accuracy of predicting the alert level of COVID-19 in 202 countries using Google Trends and machine learning

Internet search engine data, such as Google Trends, was shown to be correlated with the incidence of COVID-19, but only in several countries. We aim to develop a model from a small number of countries to predict the epidemic alert level in all the countries worldwide. The "interest over time&qu...

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Bibliographic Details
Published in:Journal of global health 2020-12, Vol.10 (2), p.020511-020511
Main Authors: Peng, Yuanyuan, Li, Cuilian, Rong, Yibiao, Chen, Xinjian, Chen, Haoyu
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Betacoronavirus
Coronavirus Infections - epidemiology
Coronaviruses
Correlation analysis
COVID-19
Data Accuracy
Deep learning
Diarrhea
Disease transmission
Epidemics
Fever
Global health
Global Health - statistics & numerical data
Humans
Incidence
Infectious diseases
Machine learning
Machine Learning - statistics & numerical data
Models, Statistical
Pandemics
Pneumonia
Pneumonia, Viral - epidemiology
Research Theme 1: COVID-19 Pandemic
Retrospective Studies
SARS-CoV-2
Search Engine - statistics & numerical data
Trends
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Summary:Internet search engine data, such as Google Trends, was shown to be correlated with the incidence of COVID-19, but only in several countries. We aim to develop a model from a small number of countries to predict the epidemic alert level in all the countries worldwide. The "interest over time" and "interest by region" Google Trends data of Coronavirus, pneumonia, and six COVID symptom-related terms were searched. The daily incidence of COVID-19 from 10 January to 23 April 2020 of 202 countries was retrieved from the World Health Organization. Three alert levels were defined. Ten weeks' data from 20 countries were used for training with machine learning algorithms. The features were selected according to the correlation and importance. The model was then tested on 2830 samples of 202 countries. Our model performed well in 154 (76.2%) countries, of which each had no more than four misclassified samples. In these 154 countries, the accuracy was 0.8133, and the kappa coefficient was 0.6828. While in all 202 countries, the accuracy was 0.7527, and the kappa coefficient was 0.5841. The proposed algorithm based on Random Forest Classification and nine features performed better compared to other machine learning methods and the models with different numbers of features. Our result suggested that the model developed from 20 countries with Google Trends data and Random Forest Classification can be applied to predict the epidemic alert levels of most countries worldwide.
ISSN:2047-2978
2047-2986
DOI:10.7189/jogh.10.020511