Timed Bisimulation and Open Maps

Formal models for real-time systems have been studied intensively over the past decade. Much of the theory of untimed systems has been lifted to real-time settings. One example is the notion of bisimulation applied to timed transition systems, which is studied here within the general categorical framework of open maps. We define a category of timed transition systems, and show how to characterize standard timed bisimulation in terms of spans of open maps with a natural choice of a path category. This allows us to apply general results from the theory of open maps, e.g. the existence of canonical models and characteristic logics. Also, we obtain here an alternative proof of decidability of bisimulation for finite transition systems, and illustrate the use of open maps in finite presentations of bisimulations

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Unifying Equivalences for Timed Transition Systems

10.29007/kkds ◽

2018 ◽

Author(s):

Irina Virbitskaite ◽

Natalya Gribovskaya ◽

Eike Best

Keyword(s):

Real Time ◽

Linear Time ◽

Time Spectrum ◽

Branching Time ◽

Real Time Systems ◽

Transition Systems ◽

Abstract Characterization ◽

Time Systems ◽

Open Maps

Timed transition systems are a widely studied model for real-time systems.The intention of the paper is to show how several categorical (open maps, path-bisimilarity and coalgebraic) approaches to an abstract characterization ofbisimulation relate to each other and to the numerous suggested behavioral equivalences of linear time -- branching time spectrum, in the setting of timed transition systems.

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A Constraint Oriented Proof Methodology based on Modal Transition Systems

BRICS Report Series ◽

10.7146/brics.v1i47.21595 ◽

1994 ◽

Vol 1 (47) ◽

Cited By ~ 2

Author(s):

Kim G. Larsen

Keyword(s):

Real Time ◽

Software Systems ◽

Real Time Systems ◽

Concurrent Software ◽

Transition Systems ◽

Verification Problem ◽

Key Concepts ◽

Formal Basis ◽

Modal Transition Systems ◽

Time Systems

In this paper, we present a constraint-oriented state-based proof methodology for concurrent software systems which exploits compositionality and abstraction for the reduction of the verification problem under investigation. Formal basis for this methodology are Modal Transition Systems allowing loose state-based specifications, which can be refined by successively adding constraints. Key concepts of our method are projective views, separation of proof obligations, Skolemization and abstraction. The method is even applicable to real time systems

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UPPAAL in 1995

BRICS Report Series ◽

10.7146/brics.v3i60.18772 ◽

1996 ◽

Vol 3 (60) ◽

Cited By ~ 1

Author(s):

Johan Bengtsson ◽

Kim G. Larsen ◽

Fredrik Larsson ◽

Paul Pettersson ◽

Wang Yi

Keyword(s):

Real Time ◽

Case Studies ◽

Theoretical Foundation ◽

Timed Automata ◽

Automatic Verification ◽

Real Time Systems ◽

The Past ◽

Liveness Properties ◽

Time Systems

UPPAAL is a tool suite for automatic verification of safety and bounded liveness properties of real-time systems modeled as networks of timed automata [12, 9, 4], developed during the past two years. In this paper, we summarize the main features of UPPAAL in particular its various extensions developed in 1995 as well as applications to various case-studies, review and provide pointers to the theoretical foundation.

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