Adaptive Control of COVID-19 Outbreaks in India: Local, Gradual, and Trigger-based Exit Paths from Lockdown

Managing the outbreak of COVID-19 in India constitutes an unprecedented health emergency in one of the largest and most diverse nations in the world. On May 4, 2020, India started the process of releasing its population from a national lockdown during which extreme social distancing was implemented....

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Veröffentlicht in:	NBER Working Paper Series 2020-07
Hauptverfasser:	Alomar, Abdullah, Sarker, Arnab, Malani, Anup, Shah, Devavrat, Novosad, Paul, Soman, Satej, Tandel, Vaidehi, Kaiser, David, Shen, Dennis, Sachdeva, Stuti, Bettencourt, Luis, Imbert, Clement, Agarwal, Anish, Gruber, Jonathan, Asher, Sam
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Sprache:	eng
Schlagworte:	Coronaviruses COVID-19 Economic theory Economics of Health Epidemics Social distancing
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creator	Alomar, Abdullah Sarker, Arnab Malani, Anup Shah, Devavrat Novosad, Paul Soman, Satej Tandel, Vaidehi Kaiser, David Shen, Dennis Sachdeva, Stuti Bettencourt, Luis Imbert, Clement Agarwal, Anish Gruber, Jonathan Asher, Sam
description	Managing the outbreak of COVID-19 in India constitutes an unprecedented health emergency in one of the largest and most diverse nations in the world. On May 4, 2020, India started the process of releasing its population from a national lockdown during which extreme social distancing was implemented. We describe and simulate an adaptive control approach to exit this situation, while maintaining the epidemic under control. Adaptive control is a flexible counter-cyclical policy approach, whereby different areas release from lockdown in potentially different gradual ways, dependent on the local progression of the dis- ease. Because of these features, adaptive control requires the ability to decrease or increase social distancing in response to observed and projected dynamics of the disease outbreak. We show via simulation of a stochastic Susceptible-Infected-Recovered (SIR) model and of a synthetic intervention (SI) model that adaptive control performs at least as well as immediate and full release from lockdown starting May 4 and as full release from lockdown after a month (i.e., after May 31). The key insight is that adaptive response provides the option to increase or decrease socioeconomic activity depending on how it affects disease progression and this freedom allows it to do at least as well as most other policy alternatives. We also discuss the central challenge to any nuanced release policy, including adaptive control, specifically learning how specific policies translate into changes in contact rates and thus COVID-19's reproductive rate in real time.
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On May 4, 2020, India started the process of releasing its population from a national lockdown during which extreme social distancing was implemented. We describe and simulate an adaptive control approach to exit this situation, while maintaining the epidemic under control. Adaptive control is a flexible counter-cyclical policy approach, whereby different areas release from lockdown in potentially different gradual ways, dependent on the local progression of the dis- ease. Because of these features, adaptive control requires the ability to decrease or increase social distancing in response to observed and projected dynamics of the disease outbreak. We show via simulation of a stochastic Susceptible-Infected-Recovered (SIR) model and of a synthetic intervention (SI) model that adaptive control performs at least as well as immediate and full release from lockdown starting May 4 and as full release from lockdown after a month (i.e., after May 31). The key insight is that adaptive response provides the option to increase or decrease socioeconomic activity depending on how it affects disease progression and this freedom allows it to do at least as well as most other policy alternatives. We also discuss the central challenge to any nuanced release policy, including adaptive control, specifically learning how specific policies translate into changes in contact rates and thus COVID-19's reproductive rate in real time.</description><identifier>ISSN: 0898-2937</identifier><identifier>DOI: 10.3386/w27532</identifier><language>eng</language><publisher>Cambridge, Mass: National Bureau of Economic Research</publisher><subject>Coronaviruses ; COVID-19 ; Economic theory ; Economics of Health ; Epidemics ; Social distancing</subject><ispartof>NBER Working Paper Series, 2020-07</ispartof><rights>Copyright National Bureau of Economic Research, Inc. 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subjects	Coronaviruses COVID-19 Economic theory Economics of Health Epidemics Social distancing
title	Adaptive Control of COVID-19 Outbreaks in India: Local, Gradual, and Trigger-based Exit Paths from Lockdown
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