We present a numerical approximation scheme for the infinite horizon problem related to diffusion processes. The scheme is based on a discrete version of the dynamic programming principle and converges to the viscosity solution of the second order Hamilton-Jacobi-Bellman equation. The diffusion can be degenerate. The problem R(n) is solved in a bounded domain Omega using a truncation technique and without imposing invariance conditions on Omega. We prove explicit estimates of the error due to the truncation technique.
An approximation scheme for the optimal control of diffusion processes
CAMILLI, FABIO;
1995-01-01
Abstract
We present a numerical approximation scheme for the infinite horizon problem related to diffusion processes. The scheme is based on a discrete version of the dynamic programming principle and converges to the viscosity solution of the second order Hamilton-Jacobi-Bellman equation. The diffusion can be degenerate. The problem R(n) is solved in a bounded domain Omega using a truncation technique and without imposing invariance conditions on Omega. We prove explicit estimates of the error due to the truncation technique.File in questo prodotto:
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