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Dynamic Games of Social Distancing During an Epidemic: Analysis of Asymmetric Solutions

Ioannis Kordonis (), Athanasios-Rafail Lagos () and George P. Papavassilopoulos ()
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Ioannis Kordonis: National Technical University of Athens
Athanasios-Rafail Lagos: National Technical University of Athens
George P. Papavassilopoulos: National Technical University of Athens

Dynamic Games and Applications, 2022, vol. 12, issue 1, No 10, 214-236

Abstract: Abstract Individual behaviors play an essential role in the dynamics of transmission of infectious diseases, including COVID-19. This paper studies a dynamic game model that describes the social distancing behaviors during an epidemic, assuming a continuum of players and individual infection dynamics. The evolution of the players’ infection states follows a variant of the well-known SIR dynamics. We assume that the players are not sure about their infection state, and thus, they choose their actions based on their individually perceived probabilities of being susceptible, infected, or removed. The cost of each player depends both on her infection state and on the contact with others. We prove the existence of a Nash equilibrium and characterize Nash equilibria using nonlinear complementarity problems. We then exploit some monotonicity properties of the optimal policies to obtain a reduced-order characterization for Nash equilibrium and reduce its computation to the solution of a low-dimensional optimization problem. It turns out that, even in the symmetric case, where all the players have the same parameters, players may have very different behaviors. We finally present some numerical studies that illustrate this interesting phenomenon and investigate the effects of several parameters, including the players’ vulnerability, the time horizon, and the maximum allowed actions, on the optimal policies and the players’ costs.

Keywords: COVID-19 pandemic; Games of social distancing; Epidemics modeling and control; Nash games; Nonlinear complementarity problems (search for similar items in EconPapers)
Date: 2022
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (1)

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DOI: 10.1007/s13235-021-00403-1

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