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A Strongly-Stabilizing Protocol for Spanning Tree Construction Against a Mobile Byzantine Fault

  • Koki Inoue
  • Yuichi SudoEmail author
  • Hirotsugu Kakugawa
  • Toshimitsu Masuzawa
Conference paper
Part of the Lecture Notes in Computer Science book series (LNCS, volume 11639)

Abstract

Self-stabilization [2] is a promising paradigm for designing distributed systems that are highly-tolerant of transient faults and adaptive to topology changes, since it guarantees that a system can recover its intended behavior even when its configuration (or global state) is arbitrarily changed by transient faults or topology changes. However, the recovery to the intended behavior requires a sufficiently long period of stable network environments (with no fault or topology changes). Self-stabilization guarantees nothing when the network has permanent faults or continuous topology changes. Thus, self-stabilization in the presence of permanent faults is a challenging and attractive issue.

Notes

Acknowledgment

This work was supported by JSPS KAKENHI Grant Numbers 17K19977, 18K18000, and 19K11826 and Japan Science and Technology Agency (JST) SICORP.

References

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    Dijkstra, E.W.: Self-stabilizing systems in spite of distributed control. Commun. ACM 17(11), 643–644 (1974)CrossRefGoogle Scholar
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    Dubois, S., Masuzawa, T., Tixeuil, S.: Bounding the impact of unbounded attacks in stabilization. IEEE Trans. Parallel Distrib. Syst. 23(3), 460–466 (2012)CrossRefGoogle Scholar
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    Nesterenko, M., Arora, A.: Tolerance to unbounded byzantine faults. In: Proceedings of the 21st IEEE Symposium on Reliable Distributed Systems, pp. 22–29. IEEE (2002)Google Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • Koki Inoue
    • 1
  • Yuichi Sudo
    • 1
    Email author
  • Hirotsugu Kakugawa
    • 2
  • Toshimitsu Masuzawa
    • 1
  1. 1.Osaka UniversitySuitaJapan
  2. 2.Ryukoku UniversityKyotoJapan

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