Maximum principle for stochastic optimal control problem of finite state forward-backward stochastic difference systems

Abstract

In this paper, we study the maximum principle for stochastic optimal control problems of forward-backward stochastic difference systems (FBSSs) where the uncertainty is modeled by a discrete time, finite state process, rather than white noises. Two types of FBSSs are investigated. The first one is described by a partially coupled forward-backward stochastic difference equation (FBSE) and the second one is described by a fully coupled FBSE. By adopting an appropriate representation of the product rule and an appropriate formulation of the backward stochastic difference equation (BSE), we deduce the adjoint difference equation. Finally, the maximum principle for this optimal control problem with the control domain being convex is established.