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KMID : 1132720210190010011
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Genomics & Informatics
2021 Volume.19 No. 1 p.11 ~ p.11
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Forecasting of the COVID-19 pandemic situation of Korea
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Goo Tae-Wan
Apio Catherine
Heo Gyu-Jin
Lee Do-Eun
Lee Jong-Hyeok
Lim Ji-Sun
Han Kyul-Hee
Park Tae-Sung
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Abstract
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For the novel coronavirus disease 2019 (COVID-19), predictive modeling, in the literature, uses broadly susceptible exposed infected recoverd (SEIR)/susceptible infected recoverd (SIR), agent-based, curve-fitting models. Governments and legislative bodies rely on insights from prediction models to suggest new policies and to assess the effectiveness of enforced policies. Therefore, access to accurate outbreak prediction models is essential to obtain insights into the likely spread and consequences of infectious diseases. The objective of this study is to predict the future COVID-19 situation of Korea. Here, we employed 5 models for this analysis; SEIR, local linear regression (LLR), negative binomial (NB) regression, segment Poisson, deep-learning based long short-term memory models (LSTM) and tree based gradient boosting machine (GBM). After prediction, model performance comparison was evelauated using relative mean squared errors (RMSE) for two sets of train (January 20, 2020?December 31, 2020 and January 20, 2020?January 31, 2021) and testing data (January 1, 2021?February 28, 2021 and February 1, 2021?February 28, 2021) . Except for segmented Poisson model, the other models predicted a decline in the daily confirmed cases in the country for the coming future. RMSE values¡¯ comparison showed that LLR, GBM, SEIR, NB, and LSTM respectively, performed well in the forecasting of the pandemic situation of the country. A good understanding of the epidemic dynamics would greatly enhance the control and prevention of COVID-19 and other infectious diseases. Therefore, with increasing daily confirmed cases since this year, these results could help in the pandemic response by informing decisions about planning, resource allocation, and decision concerning social distancing policies.
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KEYWORD
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COVID-19, deep learning, disease transmission, mathematical model, pandemics, statistical model
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