Nizar Touzi – Ecole Polytechnique
The propagation of chaos for the multiple optimal stopping problem
10 November 2021 Wednesday, 19:00 (GMT +3)
The optimal stopping problem of $N$ particles deriven by interacting diffusion processes can be characterized by a cascade of obstacle Cauchy problems. The limiting problem is an optimal stopping problem of a McKean-Vlasov diffusion with criterion defined as a function of the law of the stopped process. The corresponding dynamic programming equation is an obstacle problem on the Wasserstein space, and is obtained by means of a general Itô formula for flows of marginal laws of càdlàg semimartingales. We provide a verification result which characterizes the nature of optimal stopping policies, highlighting the crucial need to randomized stopping. We also introduce a notion of viscosity solutions on the Wassertsein space which allows to characterize the value function, and we prove a result of propagation of chaos by adapting the monotone scheme convergence argument.
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