AbstractWe investigate a variant of dense-time Duration Calculus which permits model checking using timed/hybrid automata. We define a variant of the Duration Calculus, called Interval Duration Logic, (IDL), whose models are timed state sequences [1].A subset LIDL of IDL consisting only of located time constraints is presented. As our main result, we show that the models of an LIDL formula can be captured as timed state sequences accepted by an event-recording integrator automaton. A tool called IDLVALID for reducing LIDL formulae to integrator automata is briefly described. Finally, it is shown that LIDL has precisely the expressive power of event-recording integrator automata, and that a further subset LIDL- corresponds exactly to event-r...
Timed Automata (TA) is de facto a standard modelling formalism to represent systems when the interes...
This paper investigates a decidable and highly expressive real time logic QkMSO which is obtained by...
In this paper, we investigate the model checking (MC) problem for Halpern and Shoham's modal logic o...
LIDL(m) is a decidable fragment of Interval Duration Logic with Located Constraints, an expressive s...
LIDL − is a decidable fragment of Interval Duration Logic with Located Constraints, an expressive su...
Imprecision in timing can sometimes be beneficial: Metric interval temporal logic (MITL), disabling ...
AbstractIn this paper, we present several timed extensions of temporal logics, that can be used for ...
A rich dense-time logic, called Interval Duration Logic (IDL), is useful for specifying quantitative...
One of the most successful techniques for automatic verification is thatof model checking. For finit...
In previous work, the timed logic TCTL was extended with an “almost everywhere” Until modality which...
Interval temporal logics are expressive formalisms for temporal representation and reasoning, which ...
© 2019 ACM. It is well known that (timed) ω-regular properties such as 'p holds at every even positi...
We investigate the verification problem of timed automata w.r.t. linear-time dense time temporal log...
Timed Automata (TA) is de facto a standard modelling formalism to represent systems when the interes...
AbstractWe study the expressive power of an augmented version of Timed CSP and show that it is preci...
Timed Automata (TA) is de facto a standard modelling formalism to represent systems when the interes...
This paper investigates a decidable and highly expressive real time logic QkMSO which is obtained by...
In this paper, we investigate the model checking (MC) problem for Halpern and Shoham's modal logic o...
LIDL(m) is a decidable fragment of Interval Duration Logic with Located Constraints, an expressive s...
LIDL − is a decidable fragment of Interval Duration Logic with Located Constraints, an expressive su...
Imprecision in timing can sometimes be beneficial: Metric interval temporal logic (MITL), disabling ...
AbstractIn this paper, we present several timed extensions of temporal logics, that can be used for ...
A rich dense-time logic, called Interval Duration Logic (IDL), is useful for specifying quantitative...
One of the most successful techniques for automatic verification is thatof model checking. For finit...
In previous work, the timed logic TCTL was extended with an “almost everywhere” Until modality which...
Interval temporal logics are expressive formalisms for temporal representation and reasoning, which ...
© 2019 ACM. It is well known that (timed) ω-regular properties such as 'p holds at every even positi...
We investigate the verification problem of timed automata w.r.t. linear-time dense time temporal log...
Timed Automata (TA) is de facto a standard modelling formalism to represent systems when the interes...
AbstractWe study the expressive power of an augmented version of Timed CSP and show that it is preci...
Timed Automata (TA) is de facto a standard modelling formalism to represent systems when the interes...
This paper investigates a decidable and highly expressive real time logic QkMSO which is obtained by...
In this paper, we investigate the model checking (MC) problem for Halpern and Shoham's modal logic o...