Author: Antulov-Fantulin, Nino; Bottcher, Lucas
Title: On the accuracy of short-term COVID-19 fatality forecasts Cord-id: n7lmr2qj Document date: 2021_7_21
ID: n7lmr2qj
Snippet: Forecasting new cases, hospitalizations, and disease-induced deaths is an important part of infectious disease surveillance and helps guide health officials in implementing effective countermeasures. For disease surveillance in the U.S., the Centers for Disease Control and Prevention (CDC) combine more than 65 individual forecasts of these numbers in an ensemble forecast at national and state levels. We collected data on CDC ensemble forecasts of COVID-19 fatalities in the United States, and com
Document: Forecasting new cases, hospitalizations, and disease-induced deaths is an important part of infectious disease surveillance and helps guide health officials in implementing effective countermeasures. For disease surveillance in the U.S., the Centers for Disease Control and Prevention (CDC) combine more than 65 individual forecasts of these numbers in an ensemble forecast at national and state levels. We collected data on CDC ensemble forecasts of COVID-19 fatalities in the United States, and compare them with easily interpretable ``Euler'' forecasts serving as a model-free benchmark that is only based on the local rate of change of the incidence curve. The term ``Euler method'' is motivated by the eponymous numerical integration scheme that calculates the value of a function at a future time step based on the current rate of change. Our results show that CDC ensemble forecasts are not more accurate than ``Euler'' forecasts on short-term forecasting horizons of one week. However, CDC ensemble forecasts show a better performance on longer forecasting horizons. Using the current rate of change in incidences as estimates of future incidence changes is useful for epidemic forecasting on short time horizons. An advantage of the proposed method over other forecasting approaches is that it can be implemented with a very limited amount of work and without relying on additional data (e.g., human mobility and contact patterns) and high-performance computing systems.
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