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The optimal lockdown intensity for COVID-19

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  • Caulkins, Jonathan P.
  • Grass, Dieter
  • Feichtinger, Gustav
  • Hartl, Richard F.
  • Kort, Peter M.
  • Prskawetz, Alexia
  • Seidl, Andrea
  • Wrzaczek, Stefan

Abstract

One of the principal ways nations are responding to the COVID-19 pandemic is by locking down portions of their economies to reduce infectious spread. This is expensive in terms of lost jobs, lost economic productivity, and lost freedoms. So it is of interest to ask: What is the optimal intensity with which to lockdown, and how should that intensity vary dynamically over the course of an epidemic? This paper explores such questions with an optimal control model that recognizes the particular risks when infection rates surge beyond the healthcare system’s capacity to deliver appropriate care. The analysis shows that four broad strategies emerge, ranging from brief lockdowns that only “smooth the curve” to sustained lockdowns that prevent infections from spiking beyond the healthcare system’s capacity. Within this model, it can be optimal to have two separate periods of locking down, so returning to a lockdown after initial restrictions have been lifted is not necessarily a sign of failure. Relatively small changes in judgments about how to balance health and economic harms can alter dramatically which strategy prevails. Indeed, there are constellations of parameters for which two or even three of these distinct strategies can all perform equally well for the same set of initial conditions; these correspond to so-called triple Skiba points. The performance of trajectories can be highly nonlinear in the state variables, such that for various times t, the optimal unemployment rate could be low, medium, or high, but not anywhere in between. These complex dynamics emerge naturally from modeling the COVID-19 epidemic and suggest a degree of humility in policy debates. Even people who share a common understanding of the problem’s economics and epidemiology can prefer dramatically different policies. Conversely, favoring very different policies is not evident that there are fundamental disagreements.

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  • Caulkins, Jonathan P. & Grass, Dieter & Feichtinger, Gustav & Hartl, Richard F. & Kort, Peter M. & Prskawetz, Alexia & Seidl, Andrea & Wrzaczek, Stefan, 2021. "The optimal lockdown intensity for COVID-19," Journal of Mathematical Economics, Elsevier, vol. 93(C).
    • Handle: RePEc:eee:mateco:v:93:y:2021:i:c:s0304406821000276
    DOI: 10.1016/j.jmateco.2021.102489
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    2. Georgi Angelov & Raimund Kovacevic & Nikolaos I. Stilianakis & Vladimir M. Veliov, 2023. "Optimal vaccination strategies using a distributed model applied to COVID-19," Central European Journal of Operations Research, Springer;Slovak Society for Operations Research;Hungarian Operational Research Society;Czech Society for Operations Research;Österr. Gesellschaft für Operations Research (ÖGOR);Slovenian Society Informatika - Section for Operational Research;Croatian Operational Research Society, vol. 31(2), pages 499-521, June.
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    5. Gopal K. Basak & Chandramauli Chakraborty & Pranab Kumar Das, 2021. "Optimal Lockdown Strategy in a Pandemic: An Exploratory Analysis for Covid-19," Papers 2109.02512, arXiv.org.
    6. Biswas, Debajyoti & Alfandari, Laurent, 2022. "Designing an optimal sequence of non‐pharmaceutical interventions for controlling COVID-19," European Journal of Operational Research, Elsevier, vol. 303(3), pages 1372-1391.
    7. Aspri, Andrea & Beretta, Elena & Gandolfi, Alberto & Wasmer, Etienne, 2021. "Mortality containment vs. Economics Opening: Optimal policies in a SEIARD model," Journal of Mathematical Economics, Elsevier, vol. 93(C).
    8. Gopal K. Basak & Chandramauli Chakraborty & Pranab Kumar Das, 2024. "In search of an optimal public policy in a pandemic: The question of lives versus livelihood," Journal of Economic Analysis, Anser Press, vol. 3(4), pages 23-48, December.
    9. Raouf Boucekkine & Shankha Chakraborty & Aditya Goenka & Lin Liu, 2024. "A Brief Tour of Economic Epidemiology Modelling," LIDAM Discussion Papers IRES 2024002, Université catholique de Louvain, Institut de Recherches Economiques et Sociales (IRES).
    10. Grass, D. & Wrzaczek, S. & Caulkins, J.P. & Feichtinger, G. & Hartl, R.F. & Kort, P.M. & Kuhn, M. & Prskawetz, A. & Sanchez-Romero, M. & Seidl, A., 2024. "Riding the waves from epidemic to endemic: Viral mutations, immunological change and policy responses," Theoretical Population Biology, Elsevier, vol. 156(C), pages 46-65.
    11. Chia-Hui Lu, 2024. "The impact of lockdowns on macroeconomic performance: An application of epidemiology dynamics," Economics Bulletin, AccessEcon, vol. 44(2), pages 707-719.
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    13. Hubert Kempf & stéphane Rossignol, 2023. "Lockdown policies and the dynamics of a pandemic: foresight, rebounds and optimality," Documents de recherche 23-06, Centre d'Études des Politiques Économiques (EPEE), Université d'Evry Val d'Essonne.
    14. David Desmarchelier & Magali Jaoul-Grammare & Guillaume Morel & Thi Kim Cuong Pham, 2021. "Infectious disease and endogenous cycles: lockdown hits two birds with one stone," Working Papers of BETA 2021-23, Bureau d'Economie Théorique et Appliquée, UDS, Strasbourg.
    15. Klaus Weyerstrass & Dmitri Blueschke & Reinhard Neck & Miroslav Verbič, 2023. "Dealing with the COVID-19 pandemic in Slovenia: simulations with a macroeconometric model," Empirica, Springer;Austrian Institute for Economic Research;Austrian Economic Association, vol. 50(4), pages 853-881, November.
    16. Wilson, Matthew S., 2023. "Social contact in a pandemic: Rationality vs. heuristics," Research in Economics, Elsevier, vol. 77(1), pages 159-177.
    17. Huberts, Nick F.D. & Thijssen, Jacco J.J., 2023. "Optimal timing of non-pharmaceutical interventions during an epidemic," European Journal of Operational Research, Elsevier, vol. 305(3), pages 1366-1389.

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