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Games with secure equilibria | IEEE Conference Publication | IEEE Xplore

Games with secure equilibria


Abstract:

In 2-player nonzero-sum games, Nash equilibria capture the options for rational behavior if each player attempts to maximize her payoff. In contrast to classical game the...Show More

Abstract:

In 2-player nonzero-sum games, Nash equilibria capture the options for rational behavior if each player attempts to maximize her payoff. In contrast to classical game theory, we consider lexicographic objectives: first, each player tries to maximize her own payoff, and then, the player tries to minimize the opponent's payoff. Such objectives arise naturally in the verification of systems with multiple components. There, instead of proving that each component satisfies its specification no matter how the other components behave, it often suffices to prove that each component satisfies its specification provided that the other components satisfy their specifications. We say that a Nash equilibrium is secure if it is an equilibrium with respect to the lexicographic objectives of both players. We prove that in graph games with Borel objectives, which include the games that arise in verification, there may be several Nash equilibria, but there is always a unique maximal payoff profile of secure equilibria. We show how this equilibrium can be computed in the case of /spl omega/-regular objectives, and we characterize the memory requirements of strategies that achieve the equilibrium.
Date of Conference: 17-17 July 2004
Date Added to IEEE Xplore: 09 August 2004
Print ISBN:0-7695-2192-4
Print ISSN: 1043-6871
Conference Location: Turku, Finland

References

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