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Hoang, Thai Son [Author]; Kuruma, Hironobu [Author]; Basin, David A. [Author]; Abrial, Jean-Raymond [Author]

Developing topology discovery in Event-B*

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  • Media type: Report; E-Book
  • Title: Developing topology discovery in Event-B*
  • Contributor: Hoang, Thai Son [Author]; Kuruma, Hironobu [Author]; Basin, David A. [Author]; Abrial, Jean-Raymond [Author]
  • Published: ETH, Department of Computer Science, 2008
  • Published in: Technical report, 611
  • Language: English
  • DOI: https://doi.org/20.500.11850/69755; https://doi.org/10.3929/ethz-a-006733606
  • Keywords: Data processing ; ROUTING (COMPUTER SYSTEMS) ; SPECIFICATION LANGUAGES (COMPUTER SYSTEMS) ; WEGEERMITTLUNG (COMPUTERSYSTEME) ; PROGRAMS AND ALGORITHMS FOR THE SOLUTION OF SPECIAL PROBLEMS ; SPEZIFIKATIONSSPRACHEN (COMPUTERSYSTEME) ; PROGRAMME UND ALGORITHMEN ZUR LÖSUNG SPEZIELLER PROBLEME ; computer science
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  • Description: We present a formal development in Event-B of a distributed topology discovery algorithm. Distributed topology discovery is at the core several routing algorithms and is the problem of each node in a network discovering and maintaining information on the network topology. One of the key challenges in developing this algorithm is specifying the problem itself.We provide a specification that includes both safety properties, formalizing invariants that should hold in all system states, and liveness properties that characterize when the system reaches stable states. We specify these by appropriately combining invariants, event refinement, and proofs of event convergence and deadlock freedom. The combination of these features is novel and should be useful for formalizing and developing other kinds of semi-reactive systems, which are systems that react to, but do not modify, their environment.
  • Access State: Open Access
  • Rights information: In Copyright - Non-commercial Use Permitted