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4c Agent-based models coupled to equation-free methods Method1 #714710
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+Citations (1) - CitationsAdd new citationList by: CiterankMapLink[1] Optimal vaccine roll-out strategies including social distancing for pandemics
Author: Konstantinos Spiliotis, Constantinos Chr. Koutsoumaris, Andreas I. Reppas, Lito A. Papaxenopoulou, Jens Starke, Haralampos Hatzikirou Publication date: 15 July 2015 Publication info: iScience, Volume 25, Issue 7, 2022, 104575, ISSN 2589-0042 Cited by: David Price 11:58 AM 6 November 2023 GMT URL: DOI: https://doi.org/10.1016/j.isci.2022.104575
| Excerpt / Summary [iScience, 15 July 2015]
Non-pharmacological interventions (NPIs), principally social distancing, in combination with effective vaccines, aspire to develop a protective immunity shield against pandemics and particularly against the COVID-19 pandemic. In this study, an agent-based network model with small-world topology is employed to find optimal policies against pandemics, including social distancing and vaccination strategies. The agents’ states are characterized by a variation of the SEIR model (susceptible, exposed, infected, recovered). To explore optimal policies, an equation-free method is proposed to solve the inverse problem of calibrating an agent’s infection rate with respect to the vaccination efficacy. The results show that prioritizing the first vaccine dose in combination with mild social restrictions, is sufficient to control the pandemic, with respect to the number of deaths. Moreover, for the same mild number of social contacts, we find an optimal vaccination ratio of 0.85 between older people of ages >65 compared to younger ones. |
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