For specifying and verifying branching-time requirements, a reactive system is traditionally modeled as a labeled tree, where a path in the tree encodes a possible execution of the system. We propose to enrich such tree models with “jump-edges” that capture observational indistinguishability: for an agent a, an a-labeled edge is added between two nodes if the observable behaviors of the agent a along the paths to these nodes are identical. We show that it is possible to specify information flow properties and partial information games in temporal logics interpreted on this enriched structure. We study complexity and decidability of the model checking problem for these logics. We show that it is PSPACE-complete and EXPTIME-complete respectiv...
AbstractWe introduce a general definition for a family of branching-time logics that extend CTL* by ...
AbstractIn this paper, we study the complexity of model-checking formulas of four important real-tim...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
For specifying and verifying branching-time requirements, a reactive system is traditionally modeled...
Most analysis methods for information flow properties do not consider temporal restrictions. In prac...
Abstract. Most analysis methods for information flow properties do not consider temporal restriction...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
We provide decidability and undecidability results on the model-checking problem for infinite tree st...
. Model-checking is a method of verifying concurrent systems in which a state-transition graph model...
AbstractModel-checking is a method of verifying concurrent systems in which a state-transition graph...
Abstract. The full branching time logic CTL ∗ is a well-known specification logic for reactive syste...
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...
Temporal logic is a very powerful formalism deeply investigated and used in formal system design and...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
AbstractWe introduce a general definition for a family of branching-time logics that extend CTL* by ...
AbstractIn this paper, we study the complexity of model-checking formulas of four important real-tim...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...
For specifying and verifying branching-time requirements, a reactive system is traditionally modeled...
Most analysis methods for information flow properties do not consider temporal restrictions. In prac...
Abstract. Most analysis methods for information flow properties do not consider temporal restriction...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
We provide decidability and undecidability results on the model-checking problem for infinite tree st...
. Model-checking is a method of verifying concurrent systems in which a state-transition graph model...
AbstractModel-checking is a method of verifying concurrent systems in which a state-transition graph...
Abstract. The full branching time logic CTL ∗ is a well-known specification logic for reactive syste...
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...
Temporal logic is a very powerful formalism deeply investigated and used in formal system design and...
We present a logic that extends CTL (Computation Tree Logic) with operators that express synchroniza...
AbstractWe introduce a general definition for a family of branching-time logics that extend CTL* by ...
AbstractIn this paper, we study the complexity of model-checking formulas of four important real-tim...
AbstractWe consider automatic verification of finite state concurrent programs. The global state gra...