Parameterized model checking of rendezvous systems

Aminof, Benjamin; Kotek, Tomer; Rubin, Sasha; Spegni, Francesco; Veith, Helmut

doi:10.1007/s00446-017-0302-6

Cited by 20 publications

(26 citation statements)

References 49 publications

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“…Our logic is proved sufficient to model several complex architectures. This is important because parametric systems based on well-defined architectures satisfy most of their requirements [4,9].…”

Section: Parametric Component-based Systemsmentioning

confidence: 99%

“…We present a FOEIL sentence ψ for Request/Response architecture, described in Example 2, in the parametric setting. Let X (1) , X (2) , X (3) , and X (4) refer to instances of service registry, service, client, and coordinator component, respectively. Then, ψ = ∃x (1) .…”

Section: Example 4 (Blackboard)mentioning

confidence: 99%

“…Parametric systems represent a wide class of component-based systems including communication protocols and concurrent and distributed algorithms [1,9,17]. Parametric systems are constructed by a finite number of component types each consisting of an unknown number of instances [4,9]. We address the problem of modelling the ordering restrictions for the components' connections, an important aspect of several parametric architectures, including Publish/Subscribe and Request/Response [15,38].…”

Section: Introductionmentioning

confidence: 99%

“…Specifically, we consider the architectures Blackboard, Request/Response, and Publish/Subscribe, that impose orders on the implementation of their interactions. (4) We state an effective translation of FOEIL formulas to finite automata and prove the decidability of equivalence, validity and satisfiability for FOEIL sentences.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Architecture Modelling of Parametric Component-Based Systems

Pittou

Rahonis²

2020

Lecture Notes in Computer Science

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We study formal modelling of architectures applied on parametric component-based systems consisting of an unknown number of instances of each component. Architecture modelling is achieved by means of logics. We introduce an extended propositional interaction logic and investigate its first-order level which serves as a formal language for the interactions of parametric systems. Our logic effectively describes the execution order of interactions which is a main feature in several important architectures. We state the decidability of equivalence, satisfiability, and validity of first-order extended interaction logic formulas, and provide several examples of formulas describing well-known architectures.

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Section: Parametric Component-based Systemsmentioning

confidence: 99%

Section: Example 4 (Blackboard)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Architecture Modelling of Parametric Component-Based Systems

Pittou

Rahonis²

2020

Lecture Notes in Computer Science

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“…The types of systems for which we prove these results include guarded protocols, as introduced by Emerson and Kahlon [14], and token-passing systems, as introduced by Emerson and Namjoshi [13] for uni-directional rings, and by Clarke et al [10] for arbitrary topologies. Parameterized model checking for both of these system classes has recently been further investigated [2,3,5,22,30,31], but thus far not in a context that includes promptness properties.…”

Section: Introductionmentioning

confidence: 99%

Promptness and Bounded Fairness in Concurrent and Parameterized Systems

Jacobs

Sakr

Zimmermann

2020

Lecture Notes in Computer Science

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We investigate the satisfaction of specifications in Prompt Linear Temporal Logic (Prompt-LTL) by concurrent systems. Prompt-LTL is an extension of LTL that allows to specify parametric bounds on the satisfaction of eventualities, thus adding a quantitative aspect to the specification language. We establish a connection between bounded fairness, bounded stutter equivalence, and the satisfaction of Prompt-LTL\X formulas. Based on this connection, we prove the first cutoff results for different classes of systems with a parametric number of components and quantitative specifications, thereby identifying previously unknown decidable fragments of the parameterized model checking problem.

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Blockchain based choreographies: The construction industry case study

Spalazzi

Spegni

Corneli

et al. 2021

Concurrency and Computation

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BPMN choreography is a modeling language capable to describe scenarios where several independent participants have to collaborate in a climate of opposing interests and therefore are forced to trust each other. For this reason, in many contexts, a strong need for transparency, responsibility, and choreography compliance arise by the various participants. Blockchains and smart contracts, thanks to their characteristic of providing a decentralized and consensus-based validation mechanism, seem to be able to meet these needs in an untrusted scenario. Nevertheless, most of the related work focused either on transparency, accountability, or compliance, but none on all three of them. Furthermore, such works do not take into account the nondeterministc nature of choreographies. This work aims at using blockchains and smart contracts in this scenario providing a formally well-defined set of tools to match all three the aforementioned requirements. This work applies the proposed techniques to a case study from the construction industry, an economical relevant application domain where the demand for transparency, accountability, and compliance with procurement contracts (that can be modeled as choreographies) is very strong.

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Parameterized model checking of rendezvous systems

Cited by 20 publications

References 49 publications

Architecture Modelling of Parametric Component-Based Systems

Architecture Modelling of Parametric Component-Based Systems

Promptness and Bounded Fairness in Concurrent and Parameterized Systems

Blockchain based choreographies: The construction industry case study

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