Monadic Second-Order Logic and Bisimulation Invariance for Coalgebras

Generalizing standard monadic second-order logic for Kripke models, we introduce monadic second-order logic MSO(T) interpreted over co algebras for an arbitrary set functor T. Similar to well-known results for monadic second-order logic over trees, we provide a translation of this logic into a class...

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Bibliographic Details
Published in:2015 30th Annual ACM/IEEE Symposium on Logic in Computer Science pp. 353 - 365
Main Authors: Enqvist, Sebastian, Seifan, Fatemeh, Venema, Yde
Format: Conference Proceeding
Language:English
Published: IEEE 01.07.2015
Subjects:
Automata
bisimulation invariance
coalgebra
Cost accounting
Games
modal mu-calculus
monadic second-order logic
Reactive power
Semantics
Syntactics
ISSN:1043-6871
Online Access:Get full text
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Summary:Generalizing standard monadic second-order logic for Kripke models, we introduce monadic second-order logic MSO(T) interpreted over co algebras for an arbitrary set functor T. Similar to well-known results for monadic second-order logic over trees, we provide a translation of this logic into a class of automata, relative to the class of T-co algebras that admit a tree-like supporting Kripke frame. We then consider invariance under behavioral equivalence of MSO(T)-formulas, more in particular, we investigate whether the co algebraic mu-calculus is the bisimulation-invariant fragment of MSO(T). Building on recent results by the third author we show that in order to provide such a co algebraic generalization of the Janin-Walukiewicz Theorem, it suffices to find what we call an adequate uniform construction for the functor T. As applications of this result we obtain a partly new proof of the Janin-Walukiewicz Theorem, and bisimulation invariance results for the bag functor (graded modal logic) and all exponential polynomial functors. Finally, we consider in some detail the monotone neighborhood functor M, which provides co algebraic semantics for monotone modal logic. It turns out that there is no adequate uniform construction for M, whence the automata-theoretic approach towards bisimulation invariance does not apply directly. This problem can be overcome if we consider global bisimulations between neighborhood models: one of our main results provides a characterization of the monotone modal mu-calculus extended with the global modalities, as the fragment of monadic second order logic for the monotone neighborhood functor that is invariant for global bisimulations.
ISSN:1043-6871
DOI:10.1109/LICS.2015.41