COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City

COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City

Since its emergence in China, the COVID-19 pandemic has spread rapidly around the world. Faced with this unknown disease, public health authorities were forced to experiment, in a short period of time, with various combinations of interventions at different scales. However, as the pandemic progresse...

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Main Authors: Benoit Gaudou, Nghi Quang Huynh, Damien Philippon, Arthur Brugière, Kevin Chapuis, Patrick Taillandier, Pierre Larmande, Alexis Drogoul
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-09-01
Series:Frontiers in Public Health
Subjects:
COVID-19
agent-based modeling (ABM)
epidemiological modeling
GAMA platform
computer simulation (CS)
Online Access:https://www.frontiersin.org/article/10.3389/fpubh.2020.563247/full
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spelling doaj-e64ad59f4b1e4686b6871824f2fe10502020-11-25T03:34:49ZengFrontiers Media S.A.Frontiers in Public Health2296-25652020-09-01810.3389/fpubh.2020.563247563247COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a CityBenoit Gaudou0Benoit Gaudou1Benoit Gaudou2Nghi Quang Huynh3Nghi Quang Huynh4Damien Philippon5Arthur Brugière6Arthur Brugière7Kevin Chapuis8Kevin Chapuis9Patrick Taillandier10Pierre Larmande11Pierre Larmande12Alexis Drogoul13UMI 209, UMMISCO, IRD, Sorbonne Université, Bondy, FranceUMR 5505, IRIT, Université Toulouse 1 Capitole, Toulouse, FranceICTLab, University of Science and Technology of Hanoi (USTH), Vietnam Academy of Science and Technology, Hanoi, VietnamUMI 209, UMMISCO, IRD, Sorbonne Université, Bondy, FranceCollege of Information & Communication Technology (CICT), Can Tho University, Can Tho, VietnamWHO Collaborating Centre for Infectious Disease Epidemiology and Control, School of Public Health, Li Ka Shing Faculty of Medicine, The University of Hong Kong, Hong Kong, ChinaUMI 209, UMMISCO, IRD, Sorbonne Université, Bondy, FranceICTLab, University of Science and Technology of Hanoi (USTH), Vietnam Academy of Science and Technology, Hanoi, VietnamUMI 209, UMMISCO, IRD, Sorbonne Université, Bondy, FranceUMR 228, ESPACE-DEV, IRD, Montpellier, FranceUR 875, MIAT, INRAE, Toulouse University, Toulouse, FranceICTLab, University of Science and Technology of Hanoi (USTH), Vietnam Academy of Science and Technology, Hanoi, VietnamUMR 232, DIADE, IRD, University of Montpellier, Montpellier, FranceUMI 209, UMMISCO, IRD, Sorbonne Université, Bondy, FranceSince its emergence in China, the COVID-19 pandemic has spread rapidly around the world. Faced with this unknown disease, public health authorities were forced to experiment, in a short period of time, with various combinations of interventions at different scales. However, as the pandemic progresses, there is an urgent need for tools and methodologies to quickly analyze the effectiveness of responses against COVID-19 in different communities and contexts. In this perspective, computer modeling appears to be an invaluable lever as it allows for the in silico exploration of a range of intervention strategies prior to the potential field implementation phase. More specifically, we argue that, in order to take into account important dimensions of policy actions, such as the heterogeneity of the individual response or the spatial aspect of containment strategies, the branch of computer modeling known as agent-based modeling is of immense interest. We present in this paper an agent-based modeling framework called COVID-19 Modeling Kit (COMOKIT), designed to be generic, scalable and thus portable in a variety of social and geographical contexts. COMOKIT combines models of person-to-person and environmental transmission, a model of individual epidemiological status evolution, an agenda-based 1-h time step model of human mobility, and an intervention model. It is designed to be modular and flexible enough to allow modelers and users to represent different strategies and study their impacts in multiple social, epidemiological or economic scenarios. Several large-scale experiments are analyzed in this paper and allow us to show the potentialities of COMOKIT in terms of analysis and comparison of the impacts of public health policies in a realistic case study.https://www.frontiersin.org/article/10.3389/fpubh.2020.563247/fullCOVID-19agent-based modeling (ABM)epidemiological modelingGAMA platformcomputer simulation (CS)
collection DOAJ
language English
format Article
sources DOAJ
author Benoit Gaudou
Benoit Gaudou
Benoit Gaudou
Nghi Quang Huynh
Nghi Quang Huynh
Damien Philippon
Arthur Brugière
Arthur Brugière
Kevin Chapuis
Kevin Chapuis
Patrick Taillandier
Pierre Larmande
Pierre Larmande
Alexis Drogoul
spellingShingle Benoit Gaudou
Benoit Gaudou
Benoit Gaudou
Nghi Quang Huynh
Nghi Quang Huynh
Damien Philippon
Arthur Brugière
Arthur Brugière
Kevin Chapuis
Kevin Chapuis
Patrick Taillandier
Pierre Larmande
Pierre Larmande
Alexis Drogoul
COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City
Frontiers in Public Health
COVID-19
agent-based modeling (ABM)
epidemiological modeling
GAMA platform
computer simulation (CS)
author_facet Benoit Gaudou
Benoit Gaudou
Benoit Gaudou
Nghi Quang Huynh
Nghi Quang Huynh
Damien Philippon
Arthur Brugière
Arthur Brugière
Kevin Chapuis
Kevin Chapuis
Patrick Taillandier
Pierre Larmande
Pierre Larmande
Alexis Drogoul
author_sort Benoit Gaudou
title COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City
title_short COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City
title_full COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City
title_fullStr COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City
title_full_unstemmed COMOKIT: A Modeling Kit to Understand, Analyze, and Compare the Impacts of Mitigation Policies Against the COVID-19 Epidemic at the Scale of a City
title_sort comokit: a modeling kit to understand, analyze, and compare the impacts of mitigation policies against the covid-19 epidemic at the scale of a city
publisher Frontiers Media S.A.
series Frontiers in Public Health
issn 2296-2565
publishDate 2020-09-01
description Since its emergence in China, the COVID-19 pandemic has spread rapidly around the world. Faced with this unknown disease, public health authorities were forced to experiment, in a short period of time, with various combinations of interventions at different scales. However, as the pandemic progresses, there is an urgent need for tools and methodologies to quickly analyze the effectiveness of responses against COVID-19 in different communities and contexts. In this perspective, computer modeling appears to be an invaluable lever as it allows for the in silico exploration of a range of intervention strategies prior to the potential field implementation phase. More specifically, we argue that, in order to take into account important dimensions of policy actions, such as the heterogeneity of the individual response or the spatial aspect of containment strategies, the branch of computer modeling known as agent-based modeling is of immense interest. We present in this paper an agent-based modeling framework called COVID-19 Modeling Kit (COMOKIT), designed to be generic, scalable and thus portable in a variety of social and geographical contexts. COMOKIT combines models of person-to-person and environmental transmission, a model of individual epidemiological status evolution, an agenda-based 1-h time step model of human mobility, and an intervention model. It is designed to be modular and flexible enough to allow modelers and users to represent different strategies and study their impacts in multiple social, epidemiological or economic scenarios. Several large-scale experiments are analyzed in this paper and allow us to show the potentialities of COMOKIT in terms of analysis and comparison of the impacts of public health policies in a realistic case study.
topic COVID-19
agent-based modeling (ABM)
epidemiological modeling
GAMA platform
computer simulation (CS)
url https://www.frontiersin.org/article/10.3389/fpubh.2020.563247/full
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