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A Combined On-Line/Off-Line Framework for Black-Box Fault Diagnosis
Stavros Tripakis

Citation
Stavros Tripakis. "A Combined On-Line/Off-Line Framework for Black-Box Fault Diagnosis". Runtime Verification (RV'09), LNCS, Springer, 152-167, September, 2009.

Abstract
We propose a framework for fault diagnosis that relies on a formal specification that links system behavior and faults. This specification is not intended to model system behavior, but only to capture relationships between properties of system behavior (defined separately) and the faults. In this paper we use a simple specification language: assertions written in propositional logic (possible extensions are also discussed). These assertions can be used together with a combined on-line/off-line diagnostic system to provide a symbolic diagnosis, as a propositional formula that represents which faults are known to be present or absent. Our framework guarantees monotonicity (more knowledge about properties implies more knowledge about faults) and allows to explicitly talk about diagnosability, implicit assumptions on behaviors or faults, and consistency of specifications. State-of-the-art diagnosis frameworks, in particular from the automotive domain, can be cast and generalized in our framework.

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Citation formats  
  • HTML
    Stavros Tripakis. <a
    href="http://chess.eecs.berkeley.edu/pubs/660.html"
    >A Combined On-Line/Off-Line Framework for Black-Box
    Fault Diagnosis</a>, Runtime Verification (RV'09),
    LNCS, Springer, 152-167, September, 2009.
  • Plain text
    Stavros Tripakis. "A Combined On-Line/Off-Line
    Framework for Black-Box Fault Diagnosis". Runtime
    Verification (RV'09), LNCS, Springer, 152-167, September,
    2009.
  • BibTeX
    @inproceedings{Tripakis09_CombinedOnLineOffLineFrameworkForBlackBoxFaultDiagnosis,
        author = {Stavros Tripakis},
        title = {A Combined On-Line/Off-Line Framework for
                  Black-Box Fault Diagnosis},
        booktitle = {Runtime Verification (RV'09)},
        organization = {LNCS, Springer},
        pages = {152-167},
        month = {September},
        year = {2009},
        abstract = {We propose a framework for fault diagnosis that
                  relies on a formal specification that links system
                  behavior and faults. This specification is not
                  intended to model system behavior, but only to
                  capture relationships between properties of system
                  behavior (defined separately) and the faults. In
                  this paper we use a simple specification language:
                  assertions written in propositional logic
                  (possible extensions are also discussed). These
                  assertions can be used together with a combined
                  on-line/off-line diagnostic system to provide a
                  symbolic diagnosis, as a propositional formula
                  that represents which faults are known to be
                  present or absent. Our framework guarantees
                  monotonicity (more knowledge about properties
                  implies more knowledge about faults) and allows to
                  explicitly talk about diagnosability, implicit
                  assumptions on behaviors or faults, and
                  consistency of specifications. State-of-the-art
                  diagnosis frameworks, in particular from the
                  automotive domain, can be cast and generalized in
                  our framework. },
        URL = {http://chess.eecs.berkeley.edu/pubs/660.html}
    }
    

Posted by Stavros Tripakis on 17 Feb 2010.
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