We present a logic that extends CTL (Computation Tree Logic) with operators that express synchronization properties. A property is synchronized in a system if it holds in all paths of a certain length. The new logic is obtained by using the same path quantifiers and temporal operators as in CTL, but allowing a different order of the quantifiers. This small syntactic variation induces a logic that can express non-regular properties for which known extensions of MSO with equality of path length are undecidable. We show that our variant of CTL is decidable and that the model-checking problem is in Delta_3^P = P^{NP^NP}, and is DP-hard. We analogously consider quantifier exchange in extensions of CTL, and we present operators defined using basi...
. Model-checking is a method of verifying concurrent systems in which a state-transition graph model...
Abstract. We introduce a generic extension of the popular branching-time logic CTL which refines the...
For specifying and verifying branching-time requirements, a reactive system is traditionally modeled...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
We investigate an extension of CTL (Computation Tree Logic) by past modalities, called CTLP, interpr...
Computation Tree Logic (CTL) is one of the most syntactically elegant and computationally attractive...
We provide decidability and undecidability results on the model-checking problem for infinite tree st...
We provide decidability and undecidability results on the model-checking problem for infinite tree s...
Temporal logic is a very powerful formalism deeply investigated and used in formal system design and...
AbstractWe introduce a general definition for a family of branching-time logics that extend CTL* by ...
We study several extensions of linear-time and computation-tree temporal logics with quantifiers tha...
We define extensions of the full branching-time temporal logic CTL ∗ in which the path quantifiers a...
AbstractMonadic second-order logic (MSOL) provides a general framework for expressing properties of ...
The original publication is available at www.springerlink.com.International audienceThis paper prese...
. Model-checking is a method of verifying concurrent systems in which a state-transition graph model...
Abstract. We introduce a generic extension of the popular branching-time logic CTL which refines the...
For specifying and verifying branching-time requirements, a reactive system is traditionally modeled...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
We investigate an extension of CTL (Computation Tree Logic) by past modalities, called CTLP, interpr...
Computation Tree Logic (CTL) is one of the most syntactically elegant and computationally attractive...
We provide decidability and undecidability results on the model-checking problem for infinite tree st...
We provide decidability and undecidability results on the model-checking problem for infinite tree s...
Temporal logic is a very powerful formalism deeply investigated and used in formal system design and...
AbstractWe introduce a general definition for a family of branching-time logics that extend CTL* by ...
We study several extensions of linear-time and computation-tree temporal logics with quantifiers tha...
We define extensions of the full branching-time temporal logic CTL ∗ in which the path quantifiers a...
AbstractMonadic second-order logic (MSOL) provides a general framework for expressing properties of ...
The original publication is available at www.springerlink.com.International audienceThis paper prese...
. Model-checking is a method of verifying concurrent systems in which a state-transition graph model...
Abstract. We introduce a generic extension of the popular branching-time logic CTL which refines the...
For specifying and verifying branching-time requirements, a reactive system is traditionally modeled...