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Development of an aircraft systems dispatch reliability design methodology

Published online by Cambridge University Press:  03 February 2016

M. Bineid
Affiliation:
Aerospace Engineering Group, School of Engineering, Cranfield University, Bedford, UK
J. P. Fielding
Affiliation:
Aerospace Engineering Group, School of Engineering, Cranfield University, Bedford, UK

Abstract

This paper describes the development of a generic aircraft systems dispatch reliability design methodology (ASDRDM) that has been developed for use during early phases of the aircraft systems design process.

The methodology incorporates prediction of both reliability and maintainability through the aircraft design hierarchy, down to component level. It can be applied at the early design stage, but can also be used for advanced design phases and can use generic or actual failure rate and mean time to repair data. It allows designers to modify system architectures and component reliability and maintainability characteristics. The paper shows the validation that has been performed, and its use is demonstrated by a case-study.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 2006 

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References

1. Charter Airline Delay Summer 2002, 2003, Air Transport Users Council (AUC), UK.Google Scholar
2. Comparison Procedure Direct Maintenance Cost: A300-A310, 1981, Airbus Industries, France.Google Scholar
3. Approaching Gridlock: Air Traffic Control Delays, 1999, Air Transport Association of America (ATA), USA.Google Scholar
4. Flight delay, 2002, American Bureau of Transportation Statistics, available at http://www.bts.gov/programs/international/.Google Scholar
5. Bineid, M. and Fielding, J., Development of civil aircraft dispatch reliability prediction methodology (V75), Aircr Eng and Aerospace Tech, 2003, UK.Google Scholar
6. Bineid, M., Aircraft Systems Design Methodology and Dispatch Reliability Prediction, 2005, PhD thesis, Cranfield University, UK.Google Scholar
7. Blackmore, D. and Georgiades, S., MD-80 Service Maturity Program, 1986, Proceeding from Annual Reliability and Maintainability Symposium, IEEE, USA.Google Scholar
8. Blanchard, B.S., Maintainability: A Key to Effective Serviceability and Maintenance Management, 1995, John Wiley & Sons, USA.Google Scholar
9. Boyd, J.A., Allocation of Reliability Requirements: A New Approach, 1992, Proceeding from Annual Reliability and Maintainability Symposium, IEEE, USA.Google Scholar
10. Summary statistics, 2002, Bureau of Transportation Statistics (BTS), available at www.bts.gov/ntda/oai/SummaryStatistics/.Google Scholar
11. Condition Monitored Maintenance: an Explanatory Handbook, 1978, CAP 418, Civil Aviation Authority (CAA), UK.Google Scholar
12. Statistics on Punctuality of Flight, 2003, Civil Aviation Authority (CAA), UK.Google Scholar
13. CATIA Image Gallery, 2005, Dassault Systems, available at www.3ds.com/.Google Scholar
14. Maintainability Prediction, 1966, Military handbook MIL-HDBK-472, Department of Defense, USA.Google Scholar
15. Elliott, G.A., Designing to Achieve Reliability and Maintainability, 1985, The Institution of Mechanical Engineers, UK.Google Scholar
16. Aircraft Delays, 2004, Eurocontrol (European Organisation for the Safety of Air Navigation).Google Scholar
17. Costs of Air Transport Delay in Europe, 2000, Eurocontrol (European Organization for the Safety of Air Navigation).Google Scholar
18. Howe, D., Aircraft Conceptual Design Synthesis, 2000, Professional Engineering Publishing, UK.Google Scholar
19. Gaillard, W., A Review of the Air Transport Industry, 2003, International Air Transport Association (IATA), Canada.Google Scholar
20. Jenkinson, L., Simpkin, P. and Rhodes, D., Civil Jet Aircraft Design, 1999, Arnold, UK.Google Scholar
21. Meth, M. and Greene, K., The operational readiness: the reliability and maintainability connection, 1984, Proceeding from Annual Reliability and Maintainability Symposium, IEEE, USA.Google Scholar
22. Moubray, J., Introduction to Reliability-Centred Maintenance, 1997 Second Edition, Butterworth-Heinemann, UK.Google Scholar
23. Omari, N., The Measurement and Control of Airline Fleet Dispatch Reliability, 1980, unpublished PhD thesis, Cranfield University, UK.Google Scholar
24. Relex, 2003, Relex Software Corporation, available at www.relex-software.com.Google Scholar
25. Non-electronic parts reliability data, 1995, NPRD-95, Reliability Analysis Centre, USA.Google Scholar
26. Scholz, D., Aircraft systems-reliability, 2002, Mass, Power and Costs, European Workshop on Aircraft Design Education, Germany.Google Scholar
27. Reliability Engineering and Management, 1999, The International Society of Logistics, UK.Google Scholar