Is spread of COVID-19 a chaotic epidemic?

https://doi.org/10.1016/j.chaos.2020.110376Get rights and content

Highlights

  • Analysis suggests that COVID-19 shows chaotic behavior, like previous epidemics.

  • Spread of COVID-19 varies between countries unpredictably.

  • Variation in spread of COVID-19 is highly sensitive to physical factors.

  • Policymakers need to consider unpredictability as they respond to the pandemic.

Abstract

The COVID-19 epidemic challenges humanity in 2020. It has already taken an enormous number of human lives and had a substantial negative economic impact. Traditional compartmental epidemiological models demonstrated limited ability to predict the scale and dynamics of COVID-19 epidemic in different countries. In order to gain a deeper understanding of its behavior, we turn to chaotic dynamics, which proved fruitful in analyzing previous diseases such as measles. We hypothesize that the unpredictability of the pandemic could be a fundamental property if the disease spread is a chaotic dynamical system. Our mathematical examination of COVID-19 epidemic data in different countries reveals similarity of this dynamic to the chaotic behavior of many dynamics systems, such as logistic maps. We conclude that the data does suggest that the COVID-19 epidemic demonstrates chaotic behavior, which should be taken into account by public policy makers. Furthermore, the scale and behavior of the epidemic may be essentially unpredictable due to the properties of chaotic systems, rather than due to the limited data available for model parameterization.

Keywords

COVID-19
Chaotic systems
Epidemic dynamic
Epidemic modeling
Epidemiology

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