English

Subgame-perfect equilibrium strategies for time-inconsistent recursive stochastic control problems

Optimization and Control 2024-03-14 v2

Abstract

We study time-inconsistent recursive stochastic control problems, i.e., for which the Bellman principle of optimality does not hold. For this class of problems classical optimal controls may fail to exist, or to be relevant in practice, and dynamic programming is not easily applicable. Therefore, the notion of optimality is defined through a game-theoretic framework by means of subgame perfect equilibrium: we interpret our preference changes which, realistically, are inconsistent over time, as players in a game for which we want to find a Nash equilibrium. The approach followed in our work relies on the stochastic (Pontryagin) maximum principle: we adapt the classical spike variation technique to obtain a characterisation of equilibrium strategies in terms of a generalised second-order Hamiltonian function defined through pairs of backward stochastic differential equations, even in the multidimensional case. The theoretical results are applied in the financial field to finite horizon investment-consumption policies with non-exponential actualisation. Here the existence of non-trivial equilibrium policies is also ascertained.

Keywords

Cite

@article{arxiv.2302.00471,
  title  = {Subgame-perfect equilibrium strategies for time-inconsistent recursive stochastic control problems},
  author = {Elisa Mastrogiacomo and Marco Tarsia},
  journal= {arXiv preprint arXiv:2302.00471},
  year   = {2024}
}

Comments

arXiv admin note: substantial text overlap with arXiv:2105.01473

R2 v1 2026-06-28T08:29:07.873Z