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Publications - On Strong Determinacy of Countable Stochastic Games

Reference:

Stefan Kiefer, Richard Mayr, Mahsa Shirmohammadi, and Dominik Wojtczak. On strong determinacy of countable stochastic games. In Proceedings of the 32nd Annual Symposium on Logic in Computer Science (LICS). IEEE, 2017.

Abstract:

We study 2-player turn-based perfect-information stochastic games with countably infinite state space. The players aim at maximizing/minimizing the probability of a given event (i.e., measurable set of infinite plays), such as reachability, Büchi, -regular or more general objectives. These games are known to be weakly determined, i.e., they have value. However, strong determinacy of threshold objectives (given by an event E and a threshold number c) was open in many cases: is it always the case that the maximizer or the minimizer has a winning strategy, i.e., one that enforces, against all strategies of the other player, that E is satisfied with probability at least (or less than) c? We show that almost-sure objectives (where c = 1) are strongly determined. This vastly generalizes a previous result on finite games with almost-sure tail objectives. On the other hand we show that quantitative (co-)Büchi objectives are not strongly determined, not even if the game is finitely branching. Moreover, for almost-sure reachability and almost-sure Büchi objectives in finitely branching games, we strengthen strong determinacy by showing that one of the players must have a memoryless deterministic (MD) winning strategy.

Suggested BibTeX entry:

@inproceedings{17KMSW-LICS-games,
    author = {Stefan Kiefer and Richard Mayr and Mahsa Shirmohammadi and Dominik Wojtczak},
    booktitle = {Proceedings of the 32nd Annual Symposium on Logic in Computer Science (LICS)},
    publisher = {IEEE},
    title = {On Strong Determinacy of Countable Stochastic Games},
    year = {2017}
}

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