Theoretical and Methodological Approaches to the Information Base for an Airline’s Flight Safety System
References
- [1] ICAO Annex 19 – Safety Management 2nd Edition, July 2016.
- [2] Dissanayake V.B and Shestakov, V. “Estimation of aircraft state inflight under the influence of adverse factors.” Series 5, vol. 12 (2002): rîga.
- [3] ICAO Doc 9859 AN/474
Management on management security flights , 3rd edition, 2013.http://www.scac.ru/ru/wp-content/uploads/2016/DOC_9859_3.pdf - [4] Jastrebinskis, A. and Šestakovs, V. “The Method for Assessing the Level of Flight Safety in an Airline with Small and Medium Operations.”
4. Starptautiskâ zinâtniskâ konference “Transporta sistçmas, loìistika un inþenierija-2016” . Rîga, Latvia, 30 Jun-1 Jul., 2016. Rîga: rîgas Aeronavigâcijas Institûts, 2016, pp. 20–30. - [5] Commission regulation (EU) No 965/2012 of 5 October 2012 – Air Operations.
- [6] EASA Certification Specification Large Aircrafts CS-25 Amendment 26.
- [7] ICAO Doc 10004: “Global Aviation Safety Plan.” 2020–2022 Edition.
https://www.icao.int/Meetings/a40/Documents/10004_ru.pdf - [8] B. V., Sharov V. D. Teoriya i praktika opredeleniya riskov v aviapredpriyatii pri razrabotke sistemy upravleniya bezopasnost’yu poletov. [Theory and practice of determining risks in air transport in the development of a flight safety control system], MGTU GA, 174, pp. 18–25.
- [9] Bogdane, Ruta, Bitiņš, Aleksandrs, Šestakovs, Vladimirs, and Dissanayake, Yasaratne Bandara. “Airline Quality Assessment Methodology taking into Account the Flight Safety Level Based on Factor Analysis.”
Transport and Aerospace Engineering . Vol. 6, No. 1 (2018): pp. 15–21. ISSN 2255-968X. e-ISSN 2255-9876. doi: 10.2478/tae-2018-0002. - [10] Bogdane Ruta, Gorbačovs, Olegs, Sestakovs Vladimirs, and Arandas Ibrahim. “Development of a model for assessing the level of flight safety in an airline using concept of risk.”
Procedia Computer Science . (2019, in press): pp. 1–10. SCOPUS. ISSN: 1877-0509. doi: 10.1016/j.procs.2019.01.150. - [11] Johnson, William, B. and Maddox, Michael E. “A model to explain human factors in aviation maintenance”.
Avionics News . (2007): pp. 38–41. - [12] “Failure Modes and effects Analysis (FMEA)”
https://ntrs.nasa.gov › api › citations › downloads. - [13] “RCM Reliability Management”.
https://solutions.1c.ru/catalog/eam-rcm/features . - [14] Šestakovs, Vladimirs, Tereščenko, Jevgenijs, Maklakovs, Juris, Bitiņš, Aleksandrs, Chatys, Rafal. “Algorithm for Analyzing Deviations and Irregularities in the Functioning of the Airline’s Structural Units and personnel in the Face of Uncertainty.”
Aviation . Vol. 24, No. 2 (2020): pp. 51–56. ISSN 1648-7788. e-ISSN 1822-4180. Pieejams. doi:10.3846/aviation.2020.12375. - [15] Solodov A.K.
Fundamentals of Risk Management .http://elib.fa.ru/fbook/solodov_64842.pdf/download/solodov_64842.pdf - [16] Beleshev S.D. Gurvich F.G. Mathematical and statistical methods of expert assessments. M.: Statistic, 2001, pp. 263.
- [17] Litvak. B.G expert Information. M.: Statistic, 2002, pp. 184.
DOI: https://doi.org/10.2478/tar-2022-0006 | Journal eISSN: 2545-2835
Language: English
Page range: 75 - 83
Submitted on: Nov 3, 2021
Accepted on: Jan 18, 2022
Published on: Mar 22, 2022
Published by: Sciendo
In partnership with: Paradigm Publishing Services
Publication frequency: 4 times per year
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© 2022 Aleksandrs Bitiņš, Ruta Bogdane, Vladimir Shestakov, Anastasija Stepanova, published by Sciendo
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