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Eliminating COVID-19: A Community-based Analysis

Siegenfeld Af, Yaneer Bar‐Yam

2020Europe PMC (PubMed Central)14 citations

Abstract

We analyze the spread of COVID-19 by considering the transmission of the disease among individuals both within and between regions. A set of regions can be defined as any partition of a population such that travel/social contact within each region far exceeds that between them. COVID-19 can be eliminated if the region-to-region reproductive number---i.e. the average number of other regions to which a single infected region will transmit the virus---is reduced to less than one. We find that this region-to-region reproductive number is proportional to the travel rate between regions and exponential in the length of the time-delay before region-level control measures are imposed. Thus, reductions in travel and the speed with which regions take action play decisive roles in whether COVID-19 is eliminated from a collection of regions. If, on average, infected regions (including those that become re-infected in the future) impose social distancing measures shortly after active spreading begins within them, the number of infected regions, and thus the number of regions in which such measures are required, will exponentially decrease over time. Elimination will in this case be a stable fixed point even after the social distancing measures have been lifted from most of the regions.

Topics & Concepts

Social distanceCoronavirus disease 2019 (COVID-19)Basic reproduction numberTransmission (telecommunications)Partition (number theory)PopulationGeographySevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Exponential growthSocial contactDemographyStatisticsEconometricsMathematicsComputer scienceInfectious disease (medical specialty)SociologyCombinatoricsCommunicationDiseaseTelecommunicationsMedicineMathematical analysisPathologyCOVID-19 epidemiological studiesMathematical and Theoretical Epidemiology and Ecology ModelsComplex Network Analysis Techniques
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