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Country distancing increase reveals the effectiveness of travel restrictions in stopping COVID-19 transmission

Lu Zhong, Mamadou Diagne, Weiping Wang, Jianxi Gao

2021Communications Physics29 citationsDOIOpen Access PDF

Abstract

Abstract Despite a number of successful approaches in predicting the spatiotemporal patterns of the novel coronavirus (COVID-19) pandemic and quantifying the effectiveness of non-pharmaceutical interventions starting from data about the initial outbreak location, we lack an intrinsic understanding as outbreak locations shift and evolve. Here, we fill this gap by developing a country distance approach to capture the pandemic’s propagation backbone tree from a complex airline network with multiple and evolving outbreak locations. We apply this approach, which is analogous to the effective resistance in series and parallel circuits, to examine countries’ closeness regarding disease spreading and evaluate the effectiveness of travel restrictions on delaying infections. In particular, we find that 63.2% of travel restrictions implemented as of 1 June 2020 are ineffective. The remaining percentage postponed the disease arrival time by 18.56 days per geographical area and resulted in a total reduction of 13,186,045 infected cases. Our approach enables us to design optimized and coordinated travel restrictions to extend the delay in arrival time and further reduce more infected cases while preserving air travel.

Topics & Concepts

ClosenessCoronavirus disease 2019 (COVID-19)OutbreakPandemicTransmission (telecommunications)Social distanceSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Computer scienceTravel time2019-20 coronavirus outbreakDistancingEconometricsOperations researchGeographyMedicineTelecommunicationsMathematicsDiseaseInfectious disease (medical specialty)VirologyTransport engineeringEngineeringMathematical analysisPathologyCOVID-19 epidemiological studiesEcosystem dynamics and resilienceMathematical and Theoretical Epidemiology and Ecology Models