Abstract
Background: The forecasting of Coronavirus Disease-19 (COVID-19) dynamics is a centrepiece in evidence-based disease management. Numerous approaches that use mathematical modelling have been used to predict the outcome of the pandemic, including data-driven models, empirical and hybrid models. This study was aimed at prediction of COVID-19 evolution in India using a model based on autoregressive integrated moving average (ARIMA). Material and Methods: Real-time Indian data of cumulative cases and deaths of COVID-19 was retrieved from the Johns Hopkins dashboard. The dataset from 11 March 2020 to 25 June 2020 (n = 107 time points) was used to fit the autoregressive integrated moving average model. The model with minimum Akaike Information Criteria was used for forecasting. The predicted root mean square error (PredRMSE) and base root mean square error (BaseRMSE) were used to validate the model. Results: The ARIMA (1,3,2) and ARIMA (3,3,1) model fit best for cumulative cases and deaths, respectively, with minimum Akaike Information Criteria. The prediction of cumulative cases and deaths for next 10 days from 26 June 2020 to 5 July 2020 showed a trend toward continuous increment. The PredRMSE and BaseRMSE of ARIMA (1,3,2) model were 21,137 and 166,330, respectively. Similarly, PredRMSE and BaseRMSE of ARIMA (3,3,1) model were 668.7 and 5,431, respectively. Conclusion: It is proposed that data on COVID-19 be collected continuously, and that forecasting continue in real time. The COVID-19 forecast assist government in resource optimisation and evidence-based decision making for a subsequent state of affairs.
Highlights
Coronavirus Disease-19 (COVID-19), caused by the novel Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-T × C dataset (CoV-2)), has caused a pandemic with global devastation to human life and health
The objective of this study was to estimate the forecast of COVID-19 cumulative cases and deaths for India
A useful autoregressive integrated moving average (ARIMA) model depends on the number of sample time points, and a good series would have more than 50 sample points.[15]
Summary
Coronavirus Disease-19 (COVID-19), caused by the novel Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), has caused a pandemic with global devastation to human life and health. SARSCoV-2 is closely related to two bat-derived SARS like coronaviruses, bat-SL-CoVZC45 and bat-SLCoVZXC21 It is transmitted by human-to-human transmission via droplets or direct contact and the mean incubation period is 6.4 days.[1] According to World Health Organisation, 10,185,374 confirmed cases and 503,862 deaths have been recorded by 1 July 2020.2 India recorded 568,092 confirmed cases and 17,400 deaths by the same time.[3] The novelty and rapid spread of SARS CoV-2 has challenged medical science across the disciplines of epidemiology, clinical signs and. Indian COVID-19 dynamics: prediction using autoregressive integrated moving average modelling. This study was aimed at prediction of COVID-19 evolution in India using a model based on autoregressive integrated moving average (ARIMA). Results: The ARIMA (1,3,2) and ARIMA (3,3,1) model fit best for cumulative cases and deaths, respectively, with minimum Akaike Information Criteria. The COVID-19 forecast assist government in resource optimisation and evidence-based decision making for a subsequent state of affairs
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