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The impact of social interventions on COVID-19 spreading based on multilayer commuter networks

Author

Listed:
  • Zeng, Lang
  • Chen, Yushu
  • Liu, Yiwen
  • Tang, Ming
  • Liu, Ying
  • Jin, Zhen
  • Do, Younghae
  • Pelinovsky, E.
  • Kirillin, M.
  • Macau, E.

Abstract

From March to June 2022, Shanghai was struck by a new coronavirus variant, Omicron, resulting in the infected cases of at least 600,000 people. Despite implementing a strict containment policy of city-wide silence (i.e., residents were not allowed to go out unless necessary), the outbreak cannot be effectively prevented within a short period of time. A significant academic and practical question is: how could we prevent and control outbreak of COVID-19 in large, densely populated cities like Shanghai? It is necessary to develop a rational epidemic spreading model for large cities, in order to accurately predict the trend of disease and quantitatively assess the impact of non-pharmaceutical interventions. In this paper, a multilayer commuter metapopulation network model is constructed to capture commuting flows and the size of epidemic outbreak during commuting between districts. The model accurately predicts epidemic spreading in each district of Shanghai. Assuming strict city-wide lockdowns, with each district locked down and limited inter-district commuting as social zones, simulations demonstrate significant suppression of outbreaks due to social-level interventions. For example, a 1-fold increase in PCR (Polymerase Chain Reaction) testing efficiency reduces the size of epidemic outbreak by approximately 70%. Larger districts require stricter controls to prevent exponential growth. Lockdowns effectively prevent epidemic outbreak at low disease rates but less so at high rates. Liberalized policies lead to varied outbreak trends, with economically developed regions peaking earlier due to higher population densities. This study provides a comprehensive framework for quantitatively evaluating the impact of social and regional controls on urban epidemics.

Suggested Citation

  • Zeng, Lang & Chen, Yushu & Liu, Yiwen & Tang, Ming & Liu, Ying & Jin, Zhen & Do, Younghae & Pelinovsky, E. & Kirillin, M. & Macau, E., 2024. "The impact of social interventions on COVID-19 spreading based on multilayer commuter networks," Chaos, Solitons & Fractals, Elsevier, vol. 185(C).
    • Handle: RePEc:eee:chsofr:v:185:y:2024:i:c:s0960077924007124
    DOI: 10.1016/j.chaos.2024.115160
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