HJB equations in infinite dimension and optimal control of stochastic evolution equations via generalized Fukushima decomposition
june, 2017
Type de publication :
Article (revues avec comité de lecture)
Journal :
SIAM Journal on Control and Optimization, vol. 55(6), pp. 4072–4091
DOI :
HAL :
arXiv :
Mots clés :
Weak Dirichlet processes in infinite dimension; Stochastic evolution equations; Generalized Fukushima decomposition; Stochastic optimal control in Hilbert spaces.
Résumé :
A stochastic optimal control problem driven by an abstract evolution equation in a separable Hilbert space is considered. Thanks to the identification of the mild solution of the state equation as $\nu$-weak Dirichlet process, the value processes is proved to be a real weak Dirichlet process. The uniqueness of the corresponding decomposition is used to prove a verification theorem. Through that technique several of the required assumptions are milder than those employed in previous contributions about non-regular solutions of Hamilton-Jacobi-Bellman equations.
BibTeX :
@article{Fab-Rus-2017-1,
author={Giorgio Fabbri and Francesco Russo },
title={HJB equations in infinite dimension and optimal control of
stochastic evolution equations via generalized Fukushima
decomposition },
doi={10.1137/17M1113801 },
journal={SIAM Journal on Control and Optimization },
year={2017 },
month={6},
volume={55(6) },
pages={4072–4091},
}