Abstract. Zeno-timelocks constitute a challenge for the formal verification of timed automata: they are difficult to detect, and the verification of most properties (e.g., safety) is only correct for timelock-free models. Some time ago, Tripakis proposed a syntactic check on the structure of timed automata: If a certain condition (called strong non-zenoness) is met by all the loops in a given automaton, then zeno-timelocks are guaranteed not to occur. Checking for strong non-zenoness is efficient, and compositional (if all components in a network of automata are strongly non-zeno, then the network is free from zeno-timelocks). Strong non-zenoness, however, is sufficient-only: There exist non-zeno specifications which are not strongly non-ze...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
Timed automata are a common formalism for the verification of concurrent systems subject to timing c...
Zeno-timelocks constitute a challenge for the formal verification of timed automata: they are diffic...
Timed automata are a very successful notation for specifying and verifying real-time systems. One pr...
Timed automata are a very successful notation for specifying and verifying real-time systems, but ti...
The formal specification and verification of real-time systems are difficult tasks, given the com-pl...
AbstractTimed automata are a very successful notation for specifying and verifying real-time systems...
Zeno runs, where infinitely many actions occur in finite time, may inadvertently arise in timed auto...
We present a compositional analysis to detect Zeno behavior in Timed Automata with Deadlines. A synt...
We address a number of limitations of Timed Automata and real-time model-checkers, which undermine t...
We present a compositional analysis to detect Zeno behavior in Timed Automata with Deadlines. A synt...
International audienceModel checking timed systems may be negatively impacted by the presence of Zen...
An infinite run of a timed automaton is Zeno if it spans only a finite amountof time. Such runs are ...
Timed pushdown automata are pushdown automata extended with a finite set of real-valued clocks. Addi...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
Timed automata are a common formalism for the verification of concurrent systems subject to timing c...
Zeno-timelocks constitute a challenge for the formal verification of timed automata: they are diffic...
Timed automata are a very successful notation for specifying and verifying real-time systems. One pr...
Timed automata are a very successful notation for specifying and verifying real-time systems, but ti...
The formal specification and verification of real-time systems are difficult tasks, given the com-pl...
AbstractTimed automata are a very successful notation for specifying and verifying real-time systems...
Zeno runs, where infinitely many actions occur in finite time, may inadvertently arise in timed auto...
We present a compositional analysis to detect Zeno behavior in Timed Automata with Deadlines. A synt...
We address a number of limitations of Timed Automata and real-time model-checkers, which undermine t...
We present a compositional analysis to detect Zeno behavior in Timed Automata with Deadlines. A synt...
International audienceModel checking timed systems may be negatively impacted by the presence of Zen...
An infinite run of a timed automaton is Zeno if it spans only a finite amountof time. Such runs are ...
Timed pushdown automata are pushdown automata extended with a finite set of real-valued clocks. Addi...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
Timed automata are a common formalism for the verification of concurrent systems subject to timing c...