• DocumentCode
    3291805
  • Title

    Portable diagnostic reasoning for improved avionics maintenance and information capture & continuity

  • Author

    Byington, Carl S. ; Kalgren, Patrick W. ; Donovan, Bryan P.

  • Author_Institution
    Impact Technol., State College, PA, USA
  • fYear
    2004
  • fDate
    20-23 Sept. 2004
  • Firstpage
    518
  • Lastpage
    524
  • Abstract
    Current avionics maintenance and repair is a complex process that presents many opportunities for improved diagnostic methods and better capture and retention of on-board and at-wing data to be incorporated into the maintenance and logistics chain. High occurrences of built-in-test (BIT) false alarm, cannot duplicate (CND), and no fault found (NFF) statistics indicate the need for improvements in the maintenance process. Capture and preservation of fault and maintenance data with situational context can support off-board repair processes and provide opportunities for data mining to identify rogue units and emerging or otherwise undetected patterns. Previous papers by the authors have described open-systems architecture and innovative reasoning processes to capitalize evidence sources and decrease diagnostic ambiguity while preserving information continuity through the logistics chain. In this paper, the authors describe an at-wing modular application for portable maintenance aids, building upon open architecture designs and utilizing reusable, modular components to enhance diagnosis and reduce ambiguity. ReasonPro - at Wing™ presents a direct opportunity for increased diagnostic accuracy and ambiguity reduction through a better understanding of system dependencies and interactions. The technology is being embedded into a personal data assistant (PDA) to facilitate multiple element in the maintenance process. ReasonPro - at Wing™ implements onboard information sources and automated reasoning techniques that extend BITs with environmental data and data maturation processing through the support of automated data warehousing and mining.
  • Keywords
    aerospace computing; aircraft maintenance; automatic test equipment; avionics; built-in self test; data mining; data warehouses; diagnostic reasoning; fault diagnosis; logistics; open systems; Wing™ ReasonPro; automated data warehousing; avionics maintenance; avionics repairing; built-in-test false alarm; component reusability; data maturation processing; data mining; information capturing; innovative reasoning; logistics chain; off-board repair; open-systems architecture; personal data assistant; portable diagnostic reasoning; Aerospace electronics; Buildings; Data mining; Degradation; Educational institutions; Fault diagnosis; Logistics; Statistics; System testing; Warehousing;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    AUTOTESTCON 2004. Proceedings
  • ISSN
    1088-7725
  • Print_ISBN
    0-7803-8449-0
  • Type

    conf

  • DOI
    10.1109/AUTEST.2004.1436944
  • Filename
    1436944