A game-theoretical interpretation for a doubly nonlinear parabolic equation
Abstract: We introduce a game-theoretical framework for the doubly nonlinear parabolic equation [ |\partial_t u|{p-2} \partial_t u - Δ_p u = 0. ] where $Δ_p u = \nabla \cdot ( |\nabla u |{p-2} \nabla u)$ with $p>2$ is the standard $p-$Laplacian. A key feature to our approach is a new asymptotic mean value formula (AMVF) for the $p-$Laplacian that is robust even when the gradient vanishes and is independent of the sign of the $p-$Laplacian. This new AMVF leads naturally to a dynamic programming principle (DPP) whose solutions converge to the viscosity solution of the boundary value problem for the differential equation. In addition, solutions to the DPP coincide with value functions for a stochastic, two-players, zero-sum game that we introduce and analyze here.
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