From verification to control: dynamic programs for omega-regular objectives

L. De Alfaro, T.A. Henzinger, R. Majumdar, in:, IEEE, 2001, pp. 279–290.

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Abstract. Dynamic programs, or fixpoint iteration schemes, are useful for solving many problems on state spaces, including model checking on Kripke structures (“verification”), computing shortest paths on weighted graphs (“optimization”), computing the value of games played on game graphs (“control”). For Kripke structures, a rich fixpoint theory is available in the form of the µ-calculus. Yet few connections have been made between different interpretations of fixpoint algorithms. We study the question of when a particular fixpoint iteration scheme ϕ for verifying an ω-regular property Ψ on a Kripke structure can be used also for solving a two-player game on a game graph with winning objective Ψ. We provide a sufficient and necessary criterion for the answer to be affirmative in the form of an extremal-model theorem for games: under a game interpretation, the dynamic program ϕ solves the game with objective Ψ if and only if both (1) under an existential interpretation on Kripke structures, ϕ is equivalent to ∃Ψ, and (2) under a universal interpretation on Kripke structures, ϕ is equivalent to ∀Ψ. In other words, ϕ is correct on all two-player game graphs iff it is correct on all extremal game graphs, where one or the other player has no choice of moves. The theorem generalizes to quantitative interpretations, where it connects two-player games with costs to weighted graphs. While the standard translations from ω-regular properties to the µ-calculus violate (1) or (2), we give a translation that satisfies both conditions. Our construction, therefore, yields fixpoint iteration schemes that can be uniformly applied on Kripke structures, weighted graphs, game graphs, and game graphs with costs, in order to meet or optimize a given ω-regular objective.
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Date Published
2001-08-07
Page
279 - 290
Conference
LICS: Logic in Computer Science
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De Alfaro L, Henzinger TA, Majumdar R. From verification to control: dynamic programs for omega-regular objectives. In: IEEE; 2001:279-290. doi:10.1109/LICS.2001.932504
De Alfaro, L., Henzinger, T. A., & Majumdar, R. (2001). From verification to control: dynamic programs for omega-regular objectives (pp. 279–290). Presented at the LICS: Logic in Computer Science, IEEE. https://doi.org/10.1109/LICS.2001.932504
De Alfaro, Luca, Thomas A Henzinger, and Ritankar Majumdar. “From Verification to Control: Dynamic Programs for Omega-Regular Objectives,” 279–90. IEEE, 2001. https://doi.org/10.1109/LICS.2001.932504.
L. De Alfaro, T. A. Henzinger, and R. Majumdar, “From verification to control: dynamic programs for omega-regular objectives,” presented at the LICS: Logic in Computer Science, 2001, pp. 279–290.
De Alfaro L, Henzinger TA, Majumdar R. 2001. From verification to control: dynamic programs for omega-regular objectives. LICS: Logic in Computer Science 279–290.
De Alfaro, Luca, et al. From Verification to Control: Dynamic Programs for Omega-Regular Objectives. IEEE, 2001, pp. 279–90, doi:10.1109/LICS.2001.932504.

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