Author: Bakalos, N.; Kaselimi, M.; Doulamis, A.; Doulamis, N.
Title: Bioinformatics systems for monitoring and mitigating epidemics: The STAMINA Paradigm Cord-id: t4gf55t0 Document date: 2021_1_1
ID: t4gf55t0
Snippet: It is a common case for locally restricted epidemics to be expanded into global pandemics, due to globalization and numerous contacts through international business and tourism hubs. Nowadays, it is more and more likely to import pathogens and viruses from locations all around the world. This has never been more evident than the COVID-19 pandemic, which transformed within months from a local outbreak to a world-encompassing pandemic with severe losses of life and disruption to social status quo.
Document: It is a common case for locally restricted epidemics to be expanded into global pandemics, due to globalization and numerous contacts through international business and tourism hubs. Nowadays, it is more and more likely to import pathogens and viruses from locations all around the world. This has never been more evident than the COVID-19 pandemic, which transformed within months from a local outbreak to a world-encompassing pandemic with severe losses of life and disruption to social status quo. The mitigation of the effects of such pandemics, can happen only through holistic systems that are able to support healthcare authorities in an end-to-end basis. In this the STAMINA platform design, and discuss the envisioned system initially from a holistic point of view. Our aim is to elaborate on (i) Standards that will be followed during the implementation and the deployment of the individual tools and the platform. (ii) The STAMINA platform from a high-level interconnections' mapping and discuss the interfacing between the user and the platform. © 2021 ACM.
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