Optimal control of predictive mean-field equations and applications to finance

Abstract

We study a coupled system of controlled stochastic differential equations (SDEs) driven by a Brownian motion and a compensated Poisson random measure, consisting of a forward SDE in the unknown process X(t) and a predictive mean-field backward SDE (BSDE) in the unknowns Y(t), Z(t), K(t,·). The driver of the BSDE at time t may depend not just upon the unknown processes Y(t), Z(t), K(t,·), but also on the predicted future value Y(t+δ), defined by the conditional expectation A(t):= E[Y(t+δ) | Ft]. \\ We give a sufficient and a necessary maximum principle for the optimal control of such systems, and then we apply these results to the following two problems:\\ (i) Optimal portfolio in a financial market with an insider influenced asset price process. \\ (ii) Optimal consumption rate from a cash flow modeled as a geometric It\ o-L\' evy SDE, with respect to predictive recursive utility.