Modelling optimal lockdowns with waning immunity

Aditya Goenka; Lin Liu; Manh-Hung Nguyen

doi:10.1007/s00199-022-01468-8

Modelling optimal lockdowns with waning immunity

Aditya Goenka, Lin Liu, Manh-Hung Nguyen^*

^*Corresponding author for this work

Economics

Research output: Contribution to journal › Article › peer-review

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Abstract

This paper studies continuing optimal lockdowns (can also be interpreted as quarantines or self-isolation) in the long run if a disease (Covid-19) is endemic and immunity can fail, that is, the disease has SIRS dynamics. We model how disease related mortality affects the optimal choices in a dynamic general equilibrium neoclassical growth framework. An extended welfare function that incorporates loss from mortality is used. In a disease endemic steady state, without this welfare loss even if there is continuing mortality, it is not optimal to impose even a partial lockdown. We characterize how the optimal restriction and equilibrium outcomes vary with the effectiveness of the lockdown, the productivity of working from home, the rate of mortality from the disease, and failure of immunity.
We provide the sufficiency conditions for economic models with $SIRS$ dynamics with disease related mortality -- a class of models which are non-convex and have endogenous discounting so that no existing results are applicable.

Original language	English
Number of pages	38
Journal	Economic Theory
Volume	2022
Early online date	29 Nov 2022
DOIs	https://doi.org/10.1007/s00199-022-01468-8
Publication status	E-pub ahead of print - 29 Nov 2022

Keywords

COVID-19,
SIRS model
MORTALITY
lockdown
Quarantine
Sufficiency conditions
self-isolation
infectious diseases
NPI
Endogenous discounting

ASJC Scopus subject areas

Economics, Econometrics and Finance(all)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

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title = "Modelling optimal lockdowns with waning immunity",

abstract = "This paper studies continuing optimal lockdowns (can also be interpreted as quarantines or self-isolation) in the long run if a disease (Covid-19) is endemic and immunity can fail, that is, the disease has SIRS dynamics. We model how disease related mortality affects the optimal choices in a dynamic general equilibrium neoclassical growth framework. An extended welfare function that incorporates loss from mortality is used. In a disease endemic steady state, without this welfare loss even if there is continuing mortality, it is not optimal to impose even a partial lockdown. We characterize how the optimal restriction and equilibrium outcomes vary with the effectiveness of the lockdown, the productivity of working from home, the rate of mortality from the disease, and failure of immunity. We provide the sufficiency conditions for economic models with $SIRS$ dynamics with disease related mortality -- a class of models which are non-convex and have endogenous discounting so that no existing results are applicable.",

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journal = "Economic Theory",

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T1 - Modelling optimal lockdowns with waning immunity

AU - Goenka, Aditya

AU - Liu, Lin

AU - Nguyen, Manh-Hung

PY - 2022/11/29

Y1 - 2022/11/29

N2 - This paper studies continuing optimal lockdowns (can also be interpreted as quarantines or self-isolation) in the long run if a disease (Covid-19) is endemic and immunity can fail, that is, the disease has SIRS dynamics. We model how disease related mortality affects the optimal choices in a dynamic general equilibrium neoclassical growth framework. An extended welfare function that incorporates loss from mortality is used. In a disease endemic steady state, without this welfare loss even if there is continuing mortality, it is not optimal to impose even a partial lockdown. We characterize how the optimal restriction and equilibrium outcomes vary with the effectiveness of the lockdown, the productivity of working from home, the rate of mortality from the disease, and failure of immunity. We provide the sufficiency conditions for economic models with $SIRS$ dynamics with disease related mortality -- a class of models which are non-convex and have endogenous discounting so that no existing results are applicable.

AB - This paper studies continuing optimal lockdowns (can also be interpreted as quarantines or self-isolation) in the long run if a disease (Covid-19) is endemic and immunity can fail, that is, the disease has SIRS dynamics. We model how disease related mortality affects the optimal choices in a dynamic general equilibrium neoclassical growth framework. An extended welfare function that incorporates loss from mortality is used. In a disease endemic steady state, without this welfare loss even if there is continuing mortality, it is not optimal to impose even a partial lockdown. We characterize how the optimal restriction and equilibrium outcomes vary with the effectiveness of the lockdown, the productivity of working from home, the rate of mortality from the disease, and failure of immunity. We provide the sufficiency conditions for economic models with $SIRS$ dynamics with disease related mortality -- a class of models which are non-convex and have endogenous discounting so that no existing results are applicable.

KW - COVID-19,

KW - SIRS model

KW - MORTALITY

KW - lockdown

KW - Quarantine

KW - Sufficiency conditions

KW - self-isolation

KW - infectious diseases

KW - NPI

KW - Endogenous discounting

U2 - 10.1007/s00199-022-01468-8

DO - 10.1007/s00199-022-01468-8

M3 - Article

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SN - 0938-2259

VL - 2022

JO - Economic Theory

JF - Economic Theory

ER -

Modelling optimal lockdowns with waning immunity

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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