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Article Dans Une Revue The Annals of Applied Probability Année : 2015

Discrete time approximation of fully nonlinear HJB equations via BSDEs with nonpositive jumps

Résumé

We propose a new probabilistic numerical scheme for fully nonlinear equation of Hamilton-Jacobi-Bellman (HJB) type associated to stochastic control problem, which is based on the Feynman-Kac representation in [12] by means of control randomization and backward stochastic differential equation with nonpositive jumps. We study a discrete time approximation for the minimal solution to this class of BSDE when the time step goes to zero, which provides both an approximation for the value function and for an optimal control in feedback form. We obtained a convergence rate without any ellipticity condition on the controlled diffusion coefficient. Explicit implementable scheme based on Monte-Carlo simulations and empirical regressions, associated error analysis, and numerical experiments are performed in the companion paper [13].
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Dates et versions

hal-00905416 , version 1 (18-11-2013)
hal-00905416 , version 2 (18-11-2013)
hal-00905416 , version 3 (22-11-2013)

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Idris Kharroubi, Nicolas Langrené, Huyên Pham. Discrete time approximation of fully nonlinear HJB equations via BSDEs with nonpositive jumps. The Annals of Applied Probability, 2015, 25 (4), pp.2301-2338. ⟨10.1214/14-AAP1049⟩. ⟨hal-00905416v3⟩
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