Scientific Reports (May 2023)

Forecasting COVID-19 activity in Australia to support pandemic response: May to October 2020

  • Robert Moss,
  • David J. Price,
  • Nick Golding,
  • Peter Dawson,
  • Jodie McVernon,
  • Rob J. Hyndman,
  • Freya M. Shearer,
  • James M. McCaw

DOI
https://doi.org/10.1038/s41598-023-35668-6
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 16

Abstract

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Abstract As of January 2021, Australia had effectively controlled local transmission of COVID-19 despite a steady influx of imported cases and several local, but contained, outbreaks in 2020. Throughout 2020, state and territory public health responses were informed by weekly situational reports that included an ensemble forecast of daily COVID-19 cases for each jurisdiction. We present here an analysis of one forecasting model included in this ensemble across the variety of scenarios experienced by each jurisdiction from May to October 2020. We examine how successfully the forecasts characterised future case incidence, subject to variations in data timeliness and completeness, showcase how we adapted these forecasts to support decisions of public health priority in rapidly-evolving situations, evaluate the impact of key model features on forecast skill, and demonstrate how to assess forecast skill in real-time before the ground truth is known. Conditioning the model on the most recent, but incomplete, data improved the forecast skill, emphasising the importance of developing strong quantitative models of surveillance system characteristics, such as ascertainment delay distributions. Forecast skill was highest when there were at least 10 reported cases per day, the circumstances in which authorities were most in need of forecasts to aid in planning and response.