The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences (Nov 2021)

COVID-19 AGENT-BASED MODEL: AN EPIDEMIOLOGICAL SIMULATOR APPLIED IN VACCINATION SCENARIOS FOR QUEZON CITY, PHILIPPINES

  • V. P. Bongolan,
  • K. K. Ang,
  • J. J. Celeste,
  • J. M. Minoza,
  • S. Caoili,
  • R. L. Rivera,
  • R. de Castro

DOI
https://doi.org/10.5194/isprs-archives-XLVI-4-W6-2021-65-2021
Journal volume & issue
Vol. XLVI-4-W6-2021
pp. 65 – 70

Abstract

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COVID-19 vaccines are rolling out in the Philippines but the supply remains limited; there is a need to optimize the distribution. In this study, we developed a COVID-19 agent-based model for Quezon City, a COVID-19 hotspot in the country. This model, in conjunction with a multi-objective linear programming model for equitable vaccine distribution, was then used to simulate four vaccination scenarios. Experiments were conducted with the front-line workers always added to the groups: mobile workers, elderly and low-income. Main results are: prioritizing the mobile workers minimizes infections the most (by 4.34%), while prioritizing the low-income groups minimizes deaths the most (by 1.93%). These results demonstrate that protecting the population with the most interactions (mobile workers) effectively reduces future infections. On the other hand, protecting the most vulnerable population (low income and elderly) decreases the likelihood of death. These results may guide the policy-makers in Quezon City.