Long-Term Average Impulse Control with Mean Field Interactions

Abstract: This paper analyzes and provides explicit solutions for a long-term average impulse control problem with a specific mean-field interaction. The underlying process is a general one-dimensional diffusion with appropriate boundary behavior. The model is motivated by applications such the optimal long-term management of renewable natural resources and financial portfolio management. Each individual agent seeks to maximize the long-term average reward, which consists of a running reward and incomes from discrete impulses, where the unit intervention price depends on the market through a stationary supply rate. In a competitive market setting, we establish the existence of and explicitly characterize an equilibrium strategy within a large class of policies under mild conditions. Additionally, we formulate and solve the mean field control problem, in which agents cooperate with each other, aiming to realize a common maximal long-term average profit. To illustrate the theoretical results, we examine a stochastic logistic growth model and a population growth model in a stochastic environment with impulse control.