Enhancing mathematical models for COVID-19 pandemic response: A Philippine study

Mathematical models supported by a robust automated data pipeline proved to be useful tools for a data-driven and science-based response and policy-making during the COVID-19 pandemic in the Philippines. In the first year of the pandemic, FASSSTER (Feasibility Analysis on Syndromic Surveillance usin...

وصف كامل

محفوظ في:

التفاصيل البيبلوغرافية
المؤلفون الرئيسيون:	Teng, Timothy Robin, De Lara-Tuprio, Elvira, Estuar, Ma. Regina Justina, Pulmano, Christian, Ong, Lu Christian S., Pangan, Zachary, Tamayo, Lenard Paulo V, Segismundo, Jasper John V, Tolentino, Mark Anthony C, Ty, Alyssa Nicole N
التنسيق:	text
منشور في:	Archīum Ateneo 2024
الموضوعات:	COVID-19 Mathematical modeling Pandemic response policies Vaccination Delta variant Applied Mathematics Mathematics
الوصول للمادة أونلاين:	https://archium.ateneo.edu/mathematics-faculty-pubs/291 https://archium.ateneo.edu/context/mathematics-faculty-pubs/article/1294/viewcontent/1_s2.0_S1110016824009463_main.pdf
الوسوم:	إضافة وسم لا توجد وسوم, كن أول من يضع وسما على هذه التسجيلة!

id	ph-ateneo-arc.mathematics-faculty-pubs-1294
record_format	eprints
spelling	ph-ateneo-arc.mathematics-faculty-pubs-12942025-05-21T19:23:48Z Enhancing mathematical models for COVID-19 pandemic response: A Philippine study Teng, Timothy Robin De Lara-Tuprio, Elvira Estuar, Ma. Regina Justina Pulmano, Christian Ong, Lu Christian S. Pangan, Zachary Tamayo, Lenard Paulo V Segismundo, Jasper John V Tolentino, Mark Anthony C Ty, Alyssa Nicole N Mathematical models supported by a robust automated data pipeline proved to be useful tools for a data-driven and science-based response and policy-making during the COVID-19 pandemic in the Philippines. In the first year of the pandemic, FASSSTER (Feasibility Analysis on Syndromic Surveillance using Spatio-Temporal Epidemiological modeleR) used a compartmental model to generate scenario-based projections of COVID-19 cases. The emergence of the Delta variant, however, and the administration of vaccines over the second half of 2021 caused significant changes in the Philippine pandemic landscape. This necessitated making adjustments to the model to better capture the local disease transmission dynamics and address policy questions posed by stakeholders regarding COVID-19 over that period. The extended model was then utilized to generate case projections by applying different intervention scenarios, specifically, scenarios involving vaccination coverage, compliance to public health standards and active detection of cases. The new model demonstrated reliability in terms of capturing historical data and in producing relatively accurate short-term projections. In turn, most of the projections generated by the model had been used in support of case monitoring and policy-making in the country. This paper illustrates the significance of enhancing mathematical models in response to the dynamic nature of the COVID-19 pandemic. 2024-12-01T08:00:00Z text application/pdf https://archium.ateneo.edu/mathematics-faculty-pubs/291 https://archium.ateneo.edu/context/mathematics-faculty-pubs/article/1294/viewcontent/1_s2.0_S1110016824009463_main.pdf Mathematics Faculty Publications Archīum Ateneo COVID-19 Mathematical modeling Pandemic response policies Vaccination Delta variant Applied Mathematics Mathematics
institution	Ateneo De Manila University
building	Ateneo De Manila University Library
continent	Asia
country	Philippines Philippines
content_provider	Ateneo De Manila University Library
collection	archium.Ateneo Institutional Repository
topic	COVID-19 Mathematical modeling Pandemic response policies Vaccination Delta variant Applied Mathematics Mathematics
spellingShingle	COVID-19 Mathematical modeling Pandemic response policies Vaccination Delta variant Applied Mathematics Mathematics Teng, Timothy Robin De Lara-Tuprio, Elvira Estuar, Ma. Regina Justina Pulmano, Christian Ong, Lu Christian S. Pangan, Zachary Tamayo, Lenard Paulo V Segismundo, Jasper John V Tolentino, Mark Anthony C Ty, Alyssa Nicole N Enhancing mathematical models for COVID-19 pandemic response: A Philippine study
description	Mathematical models supported by a robust automated data pipeline proved to be useful tools for a data-driven and science-based response and policy-making during the COVID-19 pandemic in the Philippines. In the first year of the pandemic, FASSSTER (Feasibility Analysis on Syndromic Surveillance using Spatio-Temporal Epidemiological modeleR) used a compartmental model to generate scenario-based projections of COVID-19 cases. The emergence of the Delta variant, however, and the administration of vaccines over the second half of 2021 caused significant changes in the Philippine pandemic landscape. This necessitated making adjustments to the model to better capture the local disease transmission dynamics and address policy questions posed by stakeholders regarding COVID-19 over that period. The extended model was then utilized to generate case projections by applying different intervention scenarios, specifically, scenarios involving vaccination coverage, compliance to public health standards and active detection of cases. The new model demonstrated reliability in terms of capturing historical data and in producing relatively accurate short-term projections. In turn, most of the projections generated by the model had been used in support of case monitoring and policy-making in the country. This paper illustrates the significance of enhancing mathematical models in response to the dynamic nature of the COVID-19 pandemic.
format	text
author	Teng, Timothy Robin De Lara-Tuprio, Elvira Estuar, Ma. Regina Justina Pulmano, Christian Ong, Lu Christian S. Pangan, Zachary Tamayo, Lenard Paulo V Segismundo, Jasper John V Tolentino, Mark Anthony C Ty, Alyssa Nicole N
author_facet	Teng, Timothy Robin De Lara-Tuprio, Elvira Estuar, Ma. Regina Justina Pulmano, Christian Ong, Lu Christian S. Pangan, Zachary Tamayo, Lenard Paulo V Segismundo, Jasper John V Tolentino, Mark Anthony C Ty, Alyssa Nicole N
author_sort	Teng, Timothy Robin
title	Enhancing mathematical models for COVID-19 pandemic response: A Philippine study
title_short	Enhancing mathematical models for COVID-19 pandemic response: A Philippine study
title_full	Enhancing mathematical models for COVID-19 pandemic response: A Philippine study
title_fullStr	Enhancing mathematical models for COVID-19 pandemic response: A Philippine study
title_full_unstemmed	Enhancing mathematical models for COVID-19 pandemic response: A Philippine study
title_sort	enhancing mathematical models for covid-19 pandemic response: a philippine study
publisher	Archīum Ateneo
publishDate	2024
url	https://archium.ateneo.edu/mathematics-faculty-pubs/291 https://archium.ateneo.edu/context/mathematics-faculty-pubs/article/1294/viewcontent/1_s2.0_S1110016824009463_main.pdf
_version_	1833068550882852864

Enhancing mathematical models for COVID-19 pandemic response: A Philippine study

مواد مشابهة