English

Solving Structured Hierarchical Games Using Differential Backward Induction

Computer Science and Game Theory 2022-06-28 v4

Abstract

From large-scale organizations to decentralized political systems, hierarchical strategic decision making is commonplace. We introduce a novel class of structured hierarchical games (SHGs) that formally capture such hierarchical strategic interactions. In an SHG, each player is a node in a tree, and strategic choices of players are sequenced from root to leaves, with root moving first, followed by its children, then followed by their children, and so on until the leaves. A player's utility in an SHG depends on its own decision, and on the choices of its parent and all the tree leaves. SHGs thus generalize simultaneous-move games, as well as Stackelberg games with many followers. We leverage the structure of both the sequence of player moves as well as payoff dependence to develop a gradient-based back propagation-style algorithm, which we call Differential Backward Induction (DBI), for approximating equilibria of SHGs. We provide a sufficient condition for convergence of DBI and demonstrate its efficacy in finding approximate equilibrium solutions to several SHG models of hierarchical policy-making problems.

Keywords

Cite

@article{arxiv.2106.04663,
  title  = {Solving Structured Hierarchical Games Using Differential Backward Induction},
  author = {Zun Li and Feiran Jia and Aditya Mate and Shahin Jabbari and Mithun Chakraborty and Milind Tambe and Yevgeniy Vorobeychik},
  journal= {arXiv preprint arXiv:2106.04663},
  year   = {2022}
}

Comments

The short version of this paper appears in the proceedings of UAI-22

R2 v1 2026-06-24T02:58:48.190Z