Abstract
The COVID-19 pandemic has widely spread with an increasing infection rate through more than 200 countries. The governments of the world need to record the confirmed infectious, recovered, and death cases for the present state and predict the cases. In favor of future case prediction, governments can impose opening and closing procedures to save human lives by slowing down the pandemic progression spread. There are several forecasting models for pandemic time series based on statistical processing and machine learning algorithms. Deep learning has been proven as an excellent tool for time series forecasting problems. This paper proposes a deep learning time-series prediction model to forecast the confirmed, recovered, and death cases. Our proposed network is based on an encoding–decoding deep learning network. Moreover, we optimize the selection of our proposed network hyper-parameters. Our proposed forecasting model was applied in Saudi Arabia. Then, we applied the proposed model to other countries. Our study covers two categories of countries that have witnessed different spread waves this year. During our experiments, we compared our proposed model and the other time-series forecasting models, which totaled fifteen prediction models: three statistical models, three deep learning models, seven machine learning models, and one prophet model. Our proposed forecasting model accuracy was assessed using several statistical evaluation criteria. It achieved the lowest error values and achieved the highest R-squared value of 0.99. Our proposed model may help policymakers to improve the pandemic spread control, and our method can be generalized for other time series forecasting tasks.
Highlights
During the writing of this paper, an infectious disease from a new generation of Coronavirus (Coronavirus disease 2019, COVID-19) appeared in several countries
We assess the statistical performance in terms of three error measures, which are the mean absolute error (MAE), root mean square error (RMSE), and mean square error (MSE)
For the forecasting of confirmed cases of the COVID-19 first wave ending as shown in Table S1, our proposed model achieved the best performance with the following parameters: 128 hidden units, 0.0005 initial learning rate, and 0.2 dropout percentage
Summary
During the writing of this paper, an infectious disease from a new generation of Coronavirus (Coronavirus disease 2019, COVID-19) appeared in several countries. Transportation restrictions underwent changes due to the COVID-19 pandemic spread. Several countries have stopped international air flights more than once. The first version of COVID-19 appeared in Wuhan city in China at the end of December 2019. COVID-19 was announced by the World Health Organization (WHO). To be a global pandemic on 11 March 2020 [1]. COVID-19 exponentially spread over all the world and highly affected the healthcare systems in several countries [2]. The total number of positive confirmed cases reached about 80 million people with death cases of about
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