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First Wave COVID-19 Data Underestimated Pandemic Infections

  • June 22, 2021
  • Physics of Fluids
  • News
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Advanced uncertainty quantification model based on fluid dynamic simulations of weather effects corrects COVID-19 pandemic's first wave data inaccuracies.

From the Journal: Physics of Fluids

WASHINGTON, June 22, 2021 — Two COVID-19 pandemic curves emerged within many cities during the one-year period from March 2020 to March 2021. Oddly, the number of total daily infections reported during the first wave is much lower than that of the second, but the total number of daily deaths reported during the first wave is much higher than the second wave.

This contradiction inspired researchers from the University of Nicosia in Cyprus to explore the uncertainty in the daily number of infections reported during the first wave, caused by insufficient contact tracing between March and April 2020.

In Physics of Fluids, from AIP Publishing, Talib Dbouk and Dimitris Drikakis report using environmental fluid dynamics — advanced computational multiscale multiphysics modeling and simulations — to develop a constitutive relationship between weather seasonality conditions, such as temperature, relative humidity, and wind speed, and having two pandemic curves per year.

First Wave COVID-19 Data Underestimated Pandemic Infections
New York City COVID-19 data, with reported first- and second-wave data, and corrected first-wave data. CREDIT: Talib Dbouk and Dimitris Drikakis

“We integrated a new physics-based relationship into a pandemic forecast model that accurately predicted, as it was later observed, a second COVID-19 pandemic wave within many cities around the world, including New York,” said Drikakis.

Most, if not all, of the data for the daily number of total new infections reported during the first wave of the pandemic were underestimated and used incorrectly.

“Within the city of New York, our work shows that the daily number of new infections reported during the first wave was underestimated by a factor of four,” Dbouk said. “So, the uncertainty of first-wave data mixed with second-wave data means the general conclusions drawn can be misleading, and everyone should be aware of this.”

The researchers’ work is the first known case of deriving an advanced uncertainty quantification model for the infected cases of the pandemic’s first wave based on fluid dynamic simulations of weather effects.

“Our model is physics-based and can rectify first-wave data inadequacies by using second-wave data adequacy within a pandemic curve,” said Drikakis. “Our proposed approach combines an environmental weather seasonality-driven virus transmission rate with pandemic multiwave phenomena to improve the data accuracy of statistical predictions.”

In the future, the researchers’ proposed uncertainty quantification model may help correct the worldwide total number of daily coronavirus infections reported by many cities during the first wave of a pandemic.

The article, “Correcting pandemic data analysis through environmental fluid dynamics,” is authored by Talib Dbouk and Dimitris Drikakis. It will appear in Physics of Fluids on June 22, 2021 (DOI: 10.1063/5.0055299). After that date, it can be accessed at: https://aip.scitation.org/doi/10.1063/5.0055299.

For more information:
Larry Frum
media@aip.org
301-209-3090

Authors

Talib Dbouk, Dimitris Drikakis

Author Affiliations

University of Nicosia


Physics of Fluids

Physics of Fluids is devoted to the publication of original theoretical, computational, and experimental contributions to the dynamics of gases, liquids, and complex or multiphase fluids.

http://pof.aip.org

  • COVID-19, Dimitris Drikakis, First Wave, Second Wave, Talib Dbouk, University of Nicosia
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