Add to ORKGIn this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an extension of interval temporal logic (ITL+). The significance of this result is threefold: first the theoretical aspect is, that branching time and linear time are not so much different. A more practical aspect is that the intuitive interactive proof method of symbolic execution of ITL+ can be used for branching time logics as well. The opposite direction is interesting as well, for a subset of finite state systems, interactive verification of ITL+ formulas can be translated into a model checking problem. The proof presented in this paper has been done with the interactive theorem prover KIV. So this contribution can also be seen as a case study ...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
We have developped Tokio interpreter[5] for first order Inteval Temporal Logic[11] and an au-tomatic...
In this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an exte...
In this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an exte...
Model checking is a powerful method widely explored in formal verification to check the (state-trans...
We investigate extensions of CTL allowing to express quantitative requirements about an abstract not...
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...
We investigate the expressive power of linear-time and branching-time temporal logics as fragments o...
AbstractMany temporal logics have been suggested as branching time specification formalisms during t...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
We define a new temporal logic called CTL[k-QDDC]. It extends CTL with the ability to specify branch...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
We have developped Tokio interpreter[5] for first order Inteval Temporal Logic[11] and an au-tomatic...
In this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an exte...
In this paper we present an embedding of the most common branching time logics (CTL/CTL*) in an exte...
Model checking is a powerful method widely explored in formal verification to check the (state-trans...
We investigate extensions of CTL allowing to express quantitative requirements about an abstract not...
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...
We investigate the expressive power of linear-time and branching-time temporal logics as fragments o...
AbstractMany temporal logics have been suggested as branching time specification formalisms during t...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
We define a new temporal logic called CTL[k-QDDC]. It extends CTL with the ability to specify branch...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
In recent years, model checking with interval temporal logics is emerging as a viable alternative to...
We have developped Tokio interpreter[5] for first order Inteval Temporal Logic[11] and an au-tomatic...