Preview

Civil Aviation High Technologies

Advanced search

METHOD OF SMS BASIC ELEMENTS DEVELOPMENT FOR THE AERODROME OPERATOR

https://doi.org/10.26467/2079-0619-2018-21-4-29-38

Abstract

In developing and implementing the safety management System (SMS), which is mandatory in accordance with ICAO SARPs and the requirements of the air legislation of the Russian Federation, civil aviation aerodrome operators face methodological problems mainly in two components of the SMS – risk management and calculation of the safety performance indicators. To solve these problems, the article proposes to use a new approach for risk management in the airlines, developed by the Airline Risk Management Solution Group (ARMS). When adapting the method to the activities of the airport operator, the specifics of aviation events at the airport are taken into account. Manifestations of hazard factors in the form of events and deviations from the norms are proposed to be structured in accordance with the classification of activities in ground handling according to ISAGO Manual. A method for calculating and monitoring the safety performance indicator for the airport operator having extremely rare aviation events is proposed. The advantages of the ARMS approach in the implementation of the main prognostic part of the risk assessment, which directly considers the ability of the system to counteract the dangerous situation under the influence of hazards are shown. A threelevel scheme of safety management at the airport is proposed. The method proposed in the article was used as a basis for SMS implemented at two international aerodromes of the Russian Federation.

About the Authors

S. A. Tolstykh
Moscow State Technical University of Civil Aviation.
Russian Federation

Sergey A. Tolstykh, Postgraduate Student of Moscow State Technical University of Civil Aviation.

Moscow.



V. D. Sharov
Moscow State Technical University of Civil Aviation.
Russian Federation

Valeriу D. Sharov, Doctor of Technical Sciences, Professor of the Flight and Life Safety Chair.

Moscow.



References

1. Sharov, V.D. and Vorobyov, V.V. (2016). Ogranicheniya po ispolzovaniyu matrici IKAO pri ocenke riskov dlya bezopasnosti polyotov [Limitations of ICAO risk matrix application in safety risk assessment]. Scientific Bulletin of the Moscow State Technical University of Civil Aviation, no. 225(3), pp. 179–187. (in Russian)

2. Makhutov, N.A., Reznik, D.O., Petrov, V.P. and Kukseva, V.I. (2012). Ispolzovaniye matris riska pri provedenii osenki riska i prioritizasii zaschitnyh meropriyaniy [Use of risk matrices for risk assessment and safety measures ranking]. Problemy bezopasnosti i chrezvychainyh situasiy [Safety and Emergency Situations Problems], no 1. pp. 82–92. (in Russian)

3. Cox, L. (2008). What’s Wrong with Risk Matrices? Risk Analyses, vol. 28, no. 2, pp. 497–512.

4. Nisula, J. Operational Risk Assessment. Next Generation Methodology, URL: http://essi.easa.europa.eu/documents/ARMS.pdf (accessed: 10.05.2018).

5. Sharov, V.D. (2016). Metodologija upravlenija riskom bezopasnosti poletov na urovne avia-predprijatija. Dissertacija na soiskanie uchenoj stepeni doktora tehnicheskih nauk [Methodology for managing the safety risk for the airline. Abstract of the doctoral thesis of Mathematics and Physics]. Moscow. (in Russian)

6. Sharov, V.D. Vyjavlenie otklonenij v kontrollinge [Identification of variances in controlling] Scientific journal of the KSAU, URL: http://ej.kubagro.ru/2014/01/pdf/08.pdf (accessed: 10.05.2018). (in Russian)

7. Reason, J.T. (1997). Managing the risks of organizational accidents. Brookfield Vermont USA: AP Company.

8. Orlov, A.I. (2011). Organizacionno-ekonomicheskoye modelirovanite. Uchebnik v 3 ch. [Organizational-Economical Modeing]. Textbook. Moscow: MSTU N.E Bauman. Part 2, Expert Assessments. (in Russian)

9. Glendon, A.I., Clarke, S.G. and Mckenna, E.F. (2006). Human Safety and Risk Management. Florida: CRC Press.

10. Leveson, N.G. (2011). Engineering a Safer World. Cambridge, Massachusetts, London, England: The MIT Press.


Review

For citations:


Tolstykh S.A., Sharov V.D. METHOD OF SMS BASIC ELEMENTS DEVELOPMENT FOR THE AERODROME OPERATOR. Civil Aviation High Technologies. 2018;21(4):29-38. (In Russ.) https://doi.org/10.26467/2079-0619-2018-21-4-29-38

Views: 876


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.


ISSN 2079-0619 (Print)
ISSN 2542-0119 (Online)