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Pré-Publication, Document De Travail (Working Paper) Année : 2022

Optimal lockdown and vaccination policies to contain the spread of a mutating infectious disease

Weihua Ruan
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Benteng Zou
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Résumé

We develop a piecewise deterministic control model to study optimal lockdown and vaccination policies to manage a pandemic. Lockdown is modeled as an impulse control that allows the system to switch from one restriction regime of restrictions to another. Vaccination policy is a continuous control. Decisions are taken under the risk of mutations of the disease, with repercussions on the transmission rate. The decision maker follows a cost minimization objective. We first characterize the optimality conditions for impulse control and show how the prospect of a mutation affects the decision maker's choice by inducing her to anticipate the relative benefit of a regime change after a mutation has occurred. Under some parametric conditions, our problem admits infinitely many value functions. We show the existence of a minimum value function that is a natural candidate to the solution given the nature of the problem. Focusing on this specific value function, we finally study the features of the optimal policy, especially the timing of impulse control. We prove that uncertainty surrounding future "bad" vs. "good" mutation of the disease expedites vs. delays the adoption of lockdown measures.
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Dates et versions

hal-03692870 , version 1 (10-06-2022)

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  • HAL Id : hal-03692870 , version 1

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Fabien Prieur, Weihua Ruan, Benteng Zou. Optimal lockdown and vaccination policies to contain the spread of a mutating infectious disease. 2022. ⟨hal-03692870⟩
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