Avoiding Shared Clocks in Networks of Timed Automata

Abstract. Networks of timed automata (NTA) are widely used to model distributed real-time systems. Quite often in the literature, the automata are allowed to share clocks, i.e. transitions of one automaton may be guarded by conditions on the value of clocks reset by another automaton. This is a problem when one considers implementing such model in a distributed architecture, since reading clocks a priori requires communications which are not explicitly described in the model. We focus on the following question: given an NTA A1 A2 where A2 reads some clocks reset by A1, does there exist an NTA Awithout shared clocks with the same behavior as the initial NTA? For this, we allow the automata to exchange information during synchronizations only, in particular by copying the value of their neighbor's clocks. We discuss a formalization of the problem and define an appropriate behavioural equivalence. Then we give a criterion using the notion of contextual timed transition system, which represents the behavior of A2 when in parallel with A1. Finally, we effectively build A

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Quasi-Equal Clock Reduction: More Networks, More Queries

Herrera

Westphal

Podelski

2014

Tools and Algorithms for the Construction and Analysis of Systems

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Abstract. Quasi-equal clock reduction for networks of timed automata replaces equivalence classes of clocks which are equal except for unstable phases, i.e., points in time where these clocks differ on their valuation, by a single representative clock. An existing approach yields significant reductions of the overall verification time but is limited to so-called wellformed networks and local queries, i.e., queries which refer to a single timed automaton only. In this work we present two new transformations. The first, for networks of timed automata, summarises unstable phases without losing information under weaker well-formedness assumptions than needed by the existing approach. The second, for queries, now supports the full query language of Uppaal. We demonstrate that the cost of verifying non-local properties is much lower in transformed networks than in their original counterparts with quasi-equal clocks.

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Avoiding Shared Clocks in Networks of Timed Automata

Cited by 6 publications

References 27 publications

Multi-timed Bisimulation for Distributed Timed Automata

Multi-timed Bisimulation for Distributed Timed Automata

Avoiding Shared Clocks in Networks of Timed Automata

Quasi-Equal Clock Reduction: More Networks, More Queries

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