Author: Bhimala, Kantha Rao; Patra, Gopal Krishna; Mopuri, Rajasekhar; Mutheneni, Srinivasa Rao
Title: Prediction of COVIDâ€19 cases using the weather integrated deep learning approach for India Cord-id: g19sygae Document date: 2021_4_20
ID: g19sygae
Snippet: Advanced and accurate forecasting of COVIDâ€19 cases plays a crucial role in planning and supplying resources effectively. Artificial Intelligence (AI) techniques have proved their capability in time series forecasting nonâ€linear problems. In the present study, the relationship between weather factor and COVIDâ€19 cases was assessed, and also developed a forecasting model using long shortâ€term memory (LSTM), a deep learning model. The study found that the specific humidity has a strong pos
Document: Advanced and accurate forecasting of COVIDâ€19 cases plays a crucial role in planning and supplying resources effectively. Artificial Intelligence (AI) techniques have proved their capability in time series forecasting nonâ€linear problems. In the present study, the relationship between weather factor and COVIDâ€19 cases was assessed, and also developed a forecasting model using long shortâ€term memory (LSTM), a deep learning model. The study found that the specific humidity has a strong positive correlation, whereas there is a negative correlation with maximum temperature, and a positive correlation with minimum temperature was observed in various geographic locations of India. The weather data and COVIDâ€19 confirmed case data (1 April to 30 June 2020) were used to optimize univariate and multivariate LSTM time series forecast models. The optimized models were utilized to forecast the daily COVIDâ€19 cases for the period 1 July 2020 to 31 July 2020 with 1 to 14 days of lead time. The results showed that the univariate LSTM model was reasonably good for the shortâ€term (1 day lead) forecast of COVIDâ€19 cases (relative error <20%). Moreover, the multivariate LSTM model improved the mediumâ€range forecast skill (1–7 days lead) after including the weather factors. The study observed that the specific humidity played a crucial role in improving the forecast skill majorly in the West and northwest region of India. Similarly, the temperature played a significant role in model enhancement in the Southern and Eastern regions of India.
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