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LICS
2009
IEEE
2009
IEEE
Winning Concurrent Reachability Games Requires Doubly-Exponential Patience
—We exhibit a deterministic concurrent reachability game PURGATORYn with n non-terminal positions and a binary choice for both players in every position so that any positional strategy for Player 1 achieving the value of the game within given < 1/2 must use non-zero behavior probabilities that are less than ( 2 /(1 − ))2n−2 . Also, even to achieve the value within say 1 − 2−n/2 , doubly exponentially small behavior probabilities in the number of positions must be used. This behavior is close to worst case: We show that for any such game and 0 < < 1/2, there is an optimal strategy with all non-zero behavior probabilities being at least 2O(n) . As a corollary to our results, we conclude that any (deterministic or nondeterministic) algorithm that given a concurrent reachability game explicitly manipulates optimal strategies for Player 1 represented in several standard ways (e.g., with binary representation of probabilities or as the uniform distribution over a multiset)...
Real-time TrafficComputer Science | Concurrent Reachability Game | Deterministic Concurrent Reachability | LICS 2009 | Non-zero Behavior Probabilities |
| Added | 24 May 2010 |
| Updated | 24 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | LICS |
| Authors | Kristoffer Arnsfelt Hansen, Michal Koucký, Peter Bro Miltersen |
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