On time-inconsistent extended mean-field control problems with common noise

Abstract

This paper addresses a class of time-inconsistent mean field control (MFC) problems in the presence of common noise under non-exponential discount, where the coefficients of the McKean-Vlasov dynamics depend on the conditional joint distribution of the state and control. We investigate the closed-loop time-consistent equilibrium strategies for these extended MFC problems and provide a sufficient and necessary condition for their characterization. Furthermore, we derive a master equation system that provides an equivalent characterization of our problem. We then apply these results to the time-inconsistent linear quadratic (LQ) MFC problems, characterizing the equilibrium strategies in terms of the solution to a non-local Riccati system. To illustrate these findings, two financial applications are presented. Finally, a non-LQ example is also discussed in which the closed-loop equilibrium strategy can be explicitly characterized and verified.