Automated addition of fault recovery to cyber-physical component-based models

In this paper, we concentrate on automated synthesis of fault recovery mechanism for fault-intolerant component-based models that encompass a cyber-physical system. We define the notion of fault recovery for cyber-physical component-based models. We also present synthesis constraints that preserve t...

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Veröffentlicht in:Proceedings of the ninth ACM International Conference on Embedded Software S. 127 - 136
Hauptverfasser: Bonakdarpour, Borzoo, Lin, Yiyan, Kulkarni, Sandeep
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: New York, NY, USA ACM 09.10.2011
IEEE
Schriftenreihe:ACM Conferences
Schlagworte:
Component-based modeling
Computational modeling
Computer systems organization > Embedded and cyber-physical systems > Embedded systems
Correctness-by-construction
Cyber-physical systems
Educational institutions
Fault tolerance
Fault tolerant systems
Protocols
Receivers
Recovery
Software and its engineering > Software organization and properties > Extra-functional properties > Software fault tolerance
Software and its engineering > Software organization and properties > Software system structures > Embedded software
Software and its engineering > Software organization and properties > Software system structures > Real-time systems software
Synthesis
System recovery
Theory of computation > Logic > Programming logic
Theory of computation > Semantics and reasoning > Program reasoning
Theory of computation > Semantics and reasoning > Program reasoning > Program verification
Transformation
cyber-physical systems
synthesis
fault-tolerance
component-based modeling
correctness-by-construction
recovery
transformation
ISBN:1450307140, 9781450307147
Online-Zugang:Volltext
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Beschreibung
Zusammenfassung:In this paper, we concentrate on automated synthesis of fault recovery mechanism for fault-intolerant component-based models that encompass a cyber-physical system. We define the notion of fault recovery for cyber-physical component-based models. We also present synthesis constraints that preserve the correctness and cyber-physical nature of a given fault-intolerant model under which recovery can be added. We show that the corresponding synthesis problem is NP-complete and consequently introduce symbolic heuristics to tackle the exponential complexity. Our experimental results validate effectiveness of our heuristics for relatively large models.
ISBN:1450307140
9781450307147
DOI:10.1145/2038642.2038663