Development of a mathematical model to predict the health impact and duration of SARS-CoV-2 outbreaks on board cargo vessels

Kok Yew Ng (Lead / Corresponding author), Tudor A. Codreanu (Lead / Corresponding author), Meei Mei Gui, Pardis Biglarbeigi, Dewar Finlay, James McLaughlin

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)
43 Downloads (Pure)

Abstract

The Coronavirus Disease (COVID-19) pandemic has brought significant impact onto the maritime activities worldwide, including disruption to global trade and supply chains. The ability to predict the evolution and duration of a COVID-19 outbreak on cargo vessels would inform a more nuanced response to the event and provide a more precise return-to-trade date. This paper presents the SEIQ(H)R (Susceptibility–Exposed–Infected–Quarantine–(Hospitalisation)–Removed/Recovered) model, which is the first deterministic mathematical model developed and fit-tested to describe the transmission dynamics of COVID-19 on board cargo vessels of up to 60 crew members. Due to specific living and working circumstances on board cargo vessels, instead of utilising the reproduction number, we consider the highest fraction of crew members who share the same nationality to quantify the transmissibility of the disease. The performance of the model is verified using case studies based on data collected during COVID-19 outbreaks on three cargo vessels in Western Australia during 2020. The simulations show that the model can forecast the time taken for the transmission dynamics on each vessel to reach their equilibriums, providing informed predictions on the evolution of the outbreak, including hospitalisation rates and duration. The model demonstrates that (a) all crew members are susceptible to infection; (b) their roles on board are a determining factor in the evolution of the outbreak; and (c) an unmitigated outbreak could affect the entire crew and continue on for many weeks. The ability to model the evolution of an outbreak, in both duration and severity, is essential to predict outcomes and to plan for the best response strategy. At the same time, it offers a higher degree of certainty regarding the return to trade, which is of significant importance to multiple stakeholders.

Original languageEnglish
Number of pages22
JournalWMU Journal of Maritime Affairs
Early online date19 Oct 2022
DOIs
Publication statusE-pub ahead of print - 19 Oct 2022

Keywords

  • Cargo vessels
  • Coronavirus
  • COVID-19
  • Mathematical modelling
  • Western Australia

ASJC Scopus subject areas

  • Human Factors and Ergonomics
  • Transportation
  • Safety Research
  • Management, Monitoring, Policy and Law

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