A Model of Interconnection Between Aircraft Equipment Failures and Aircraft “States” in Flight

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The article presents a semiotic model of “aircraft conditions” in flight and multilevel structures of an aircraft. The hierarchical structure of abstract models is divided into blocks and levels that make them more compact by applying a mathematical apparatus corresponding to the goals sated. The above models were tested on the basis of statistical data on TU-154 aircraft failures for 10 years. Various aircraft functional system failures in flight were examined. The state of the aircraft is identified by normative indicators recorded in the “Aircraft Technical Operation Manual”.

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  • [1] L. J. Krajewski and L. P. Ritzman Operations Management: Strategy and Analysis. New York: Addison Wesley 1992.

  • [2] J. H. Weiss and M. E. Gershon Production and Operations Management. Boston: Allyn and Bacon 1993.

  • [3] A. Vaivads A. Paničs and V. Šestakovs “Improving Safety and Regularity of Flights in Airline Company Based on Aircraft Technical Operation Improvements” in Proc. International Scientific Conference “Engineering and Transport Services - 2014” Riga Latvia July 24-25 2014. Riga Aeronautical Institute 017 pp. 5-11. ISBN 9789984999654

  • [4] V. Šestakovs “Airplanes Incidents Analysis Because of Aviation Personnel and Evaluating the Effectiveness of Measures to Prevent Accident” in Problems of Maintenance of Sustainable Technological Systems: Vol. 5 Sustainable Development of Transport. Kielce Kielce University of Technology 2012. pp. 111-125. ISBN 9788388906749

  • [5] A. Vaivads N. Dreimanis and V. Šestakovs “Pilota kļūdas analīze” in 49th International Scientific Conference of RTU Riga Latvia Oct. 13-15 2009. (in Latvian).

  • [6] Fleet Maintenance Seminars Airline Maintenance Program Development - BOEING. Commercial Aviation Services May 4-8 2015 Seattle Washington U.S.A.

  • [7] J. Beck and B. McLoughlin “Maintenance Program Enhancements” Boeing - AeroMagazine Qtr 04 2006 pp. 24-27.

  • [8] M. Gdalevitch “Aviation Maintenance Technology” AviationPros Nov. 2009. [Online]. Available: http://www.aviationpros.com/article/10388498/msg-3-the-intelligent-maintenance [Accessed: 21 Mar. 2018].

  • [9] M. Kroes W. Watkins F. Delp and R. Sterkenburg Aircraft Maitenance & Repair 7th ed. New York: McGraw-Hill Proffesional 2013.

  • [10] A. Vaivads “Gaisa kuģu lidojumu drošības aviotehnikas atteikumos ietekme” in 49th International Scientific Conference of RTU Riga Latvia Oct. 13-15 2009. (in Latvian).

  • [11] R. L. Helmreich J. R. Klinect and J. A. Wilhelm “System Safety and Threat and Error Management: The Line Operational Safety Audit (LOSA)” in Proc. 11th International Symposium on Aviation Psychology 2001 pp. 1-6.

  • [12] A. Vaivads “Improving the Safety and Regularity of Airline Flights on Base of Improving Technical Operations Processes of Aircraft” Ph.D. dissertation Riga Technical University Riga 2016.

  • [13] IOSA Standards Manual 11th ed. 2017. [Online]. Available: http://extranet.iata.org/audit-program-documentation/Test/IOSA%20Standards%20Manual%20(ISM)%20Ed.%2011.zip?ID=1 [Accessed: 16 Mar. 2018]

  • [14] Normy letnoj godnosti. [Online]. Available: https://dic.academic.ru/dic.nsf/enc_tech/2866/Нормы [Accessed: 8 Apr. 2018]. [in Russian].

  • [15] Naskolko nadezhen samolet Tu-154?. Argumenti i fakti - 26 December 2016 [Online]. Available: http://www.aif.ru/dontknows/actual/naskolko_nadezhen_samolet_tu-154 [Accessed: 2 Apr. 2018].

  • [16] Aviacionnye proisshestvija incidenty i aviakatastrofy v Rossii. [Online]. Available: AirDisaster.ru [Accessed: 18 Mar. 2018].

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