The Simple Strategy-Iteration Method is Strongly Polynomial for the Turn-Based Deterministic Forward Game
摘要
We study Turn-Based Deterministic Forward Games (TBDFGs), the subclass of turn-based deterministic zero-sum games in which no directed cycle contains actions controlled by both players. This forward condition is strictly weaker than acyclicity: recurrent behavior may be arbitrarily rich within one player's states, while mixed-player feedback cycles are excluded. Our main contribution separates two algorithmic consequences of this structure. First, we analyze the simple strategy-iteration method of [11,14], a generic method for TBSGs whose execution neither tests for nor uses the TBDFG property. We prove that this structure-oblivious algorithm nevertheless has a strongly polynomial guarantee on every TBDFG. In particular, it terminates after at most simplex pivot steps. Thus, the forward property acts as a structural certificate for convergence even when the algorithm is not informed that the input has this property. Second, when the TBDFG structure is known in advance, a backward SCC propagation algorithm is proposed that solves a sequence of deterministic-MDP subproblems and improves the bound to simplex pivot steps. Together, these results show that forward structure both regularizes the convergence of a general strategy-iteration method and supports a sharper structure-aware algorithm.
引用
@article{arxiv.2606.29568,
title = {The Simple Strategy-Iteration Method is Strongly Polynomial for the Turn-Based Deterministic Forward Game},
author = {Sanyou Mei and Chunlin Sun and Yinyu Ye},
journal= {arXiv preprint arXiv:2606.29568},
year = {2026}
}