Author: Eshragh, Ali; Alizamir, Saed; Howley, Peter; Stojanovski, Elizabeth
Title: Modeling the dynamics of the COVID-19 population in Australia: A probabilistic analysis Cord-id: rjkfux7h Document date: 2020_10_2
ID: rjkfux7h
Snippet: The novel coronavirus COVID-19 arrived on Australian shores around 25 January 2020. This paper presents a novel method of dynamically modeling and forecasting the COVID-19 pandemic in Australia with a high degree of accuracy and in a timely manner using limited data; a valuable resource that can be used to guide government decision-making on societal restrictions on a daily and/or weekly basis. The “partially-observable stochastic process†used in this study predicts not only the future actu
Document: The novel coronavirus COVID-19 arrived on Australian shores around 25 January 2020. This paper presents a novel method of dynamically modeling and forecasting the COVID-19 pandemic in Australia with a high degree of accuracy and in a timely manner using limited data; a valuable resource that can be used to guide government decision-making on societal restrictions on a daily and/or weekly basis. The “partially-observable stochastic process†used in this study predicts not only the future actual values with extremely low error, but also the percentage of unobserved COVID-19 cases in the population. The model can further assist policy makers to assess the effectiveness of several possible alternative scenarios in their decision-making processes.
Search related documents:
Co phrase search for related documents- absolute percentage error and accurate show: 1
- accurate show and additional parameter: 1
Co phrase search for related documents, hyperlinks ordered by date