The branching-time temporal logic CTL is useful for specifying systems that change over time and involve quantification over possible futures. Here we present a resolution calculus for CTL that involves the translation of formulae to a normal form and the application of a number of resolution rules. We use indices in the normal form to represent particular paths and the application of the resolution rules is restricted dependent on an ordering and selection function to reduce the search space. We show that the translation preserves satisfiability, the calculus is sound, complete, and terminating, and consider the complexity of the calculus
The clausal resolution method developed for discrete temporal logics involves translation to a norm...
So far we have been talking about properties of linear behaviors (sequences, traces). But some prope...
We expand the applicability of the clausal resolution technique to the branching-time temporal logi...
The increasing interest in applying temporal logics in various areas of computer science requires th...
The increasing interest in applying temporal logics in various areas of computer science requires th...
Computation Tree Logic (CTL) is a branching-time temporal logic whose underlying model of time is a ...
AbstractA temporal clausal resolution method was originally developed for linear time temporal logic...
Traditional implementation techniques for temporal logic programming languages are based on the noti...
In this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an exte...
We define extensions of the full branching-time temporal logic CTL ∗ in which the path quantifiers a...
We investigate the expressive power of linear-time and branching-time temporal logics as fragments o...
AbstractWe investigate extensions of CTL allowing to express quantitative requirements about an abst...
We investigate extensions of CTL allowing to express quantitative requirements about an abstract not...
In this paper a technique is presented which provides us with a means to develop resolution-based ca...
The aim of this thesis is to explore the potential of resolution-based methods for linear temporal r...
The clausal resolution method developed for discrete temporal logics involves translation to a norm...
So far we have been talking about properties of linear behaviors (sequences, traces). But some prope...
We expand the applicability of the clausal resolution technique to the branching-time temporal logi...
The increasing interest in applying temporal logics in various areas of computer science requires th...
The increasing interest in applying temporal logics in various areas of computer science requires th...
Computation Tree Logic (CTL) is a branching-time temporal logic whose underlying model of time is a ...
AbstractA temporal clausal resolution method was originally developed for linear time temporal logic...
Traditional implementation techniques for temporal logic programming languages are based on the noti...
In this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an exte...
We define extensions of the full branching-time temporal logic CTL ∗ in which the path quantifiers a...
We investigate the expressive power of linear-time and branching-time temporal logics as fragments o...
AbstractWe investigate extensions of CTL allowing to express quantitative requirements about an abst...
We investigate extensions of CTL allowing to express quantitative requirements about an abstract not...
In this paper a technique is presented which provides us with a means to develop resolution-based ca...
The aim of this thesis is to explore the potential of resolution-based methods for linear temporal r...
The clausal resolution method developed for discrete temporal logics involves translation to a norm...
So far we have been talking about properties of linear behaviors (sequences, traces). But some prope...
We expand the applicability of the clausal resolution technique to the branching-time temporal logi...