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Model of the Tactical Aircraft Operating System as an aggregated analysis domain for hazard risk management processes

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Języki publikacji
EN
Abstrakty
EN
The Tactical Aircraft Operating System (a system for tactical aircraft operational usage) constitutes the main research area of this paper. The authors present this system via an innovative model for an anthropotechnical system in the format of an aggregated analysis domain. This model constitutes a detailed explication of a fragment of the existing Tactical Air Force System metamodel at the level that concerns tactical aircraft operation systems. The aggregated analysis domain for tactical aircraft operations is built on seven single-analysis domain, each of which includes a series of processes, operations and events, related to the airman’s aviation activities cycle, what happens during an air mission and when an aircraft operating cycle is carried out. The subsequent individual analysis domains are connected to each other by an airman-aircraft anthropotechnical pair. The introduced method of modelling the Tactical Aircraft Operating System ensures the desired generality, comprehensiveness, coherence and transparency of such a model, which allows for its implementation in various types of tactical aircraft and tactical air force bases. In principle, within the presented considerations, the model is described in relation to a single aircraft operating cycle, which is carried out by one airman during a single air mission. However, the authors have taken care when creating this model structure, so that its implementation in more complex aircraft operating cycles (more than one aircraft and one airman) is possible. Apart from the analysis domains (“before take-off”, “departure”, “air task”, “arrival”, “after landing”), which are closely related to the essential aircraft operations, the model also includes the analysis domains associated with air mission preparations and summaries. The model for the Tactical Aircraft Operating System is described by the authors in textual form, as well as in tabular form. The presented concept constitutes an attempt to formally notate the Tactical Aircraft Operating System model, in which each of the individual analysis domains can be treated as an area of interest for hazard risk management processes within the Tactical Air Force System.
Rocznik
Tom
Strony
15--26
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
autor
  • Faculty of Transport Engineering, Poznań University of Technology, Piotrowo 3 Street, 60-695 Poznań, Poland, adam.kadzinski@put.poznan.pl
Bibliografia
  • 1. Aven Terje, Enrico Zio. 2014. “Foundational Issues in Risk Assessment and Risk Management”. Risk Analysis 34(7): 1164-1172. DOI: 10.1111/risa.12132.
  • 2. Borgoń Jan, Jerzy Jaźwinski. 1989. Niezawodnośc eksploatacyjna i bezpieczeństwo lotów. Warszawa: Wydawnictwo Komunikacji i Łączności. ISBN: 83-206-0736-1. [In Polish: Operational Reliability and Flight Safety. Warsaw: Transport and Communication Publishers.]
  • 3. Dowództwo Generalne Rodzajów Sił Zbrojnych (MON). 2016. Instrukcja organizacji lotów w lotnictwie Sił Zbrojnych Rzeczypozpolitej Polskiej (IOL-2016). Warszawa. [In Polish: General Command of the Polish Armed Forces. 2016. Polish Air Force Instruction of Flights Organization (IOL-2016). 2016. Warsaw.]
  • 4. Dowództwo Generalne Rodzajów Sił Zbrojnych (MON). 2016. Regulamin lotów lotnictwa Sił Zbrojnych Rzeczypospolitej Polskiej (RL-2016). Warszawa. [In Polish: General Command of the Polish Armed Forces. 2016. Polish Air Force Flights Main Regulation (RL-2016). Warsaw.]
  • 5. Dowództwo Generalne Rodzajów Sił Zbrojnych (MON). 2017. Instrukcja służby inżynieryjno-lotniczej lotnictwa Sił Zbrojnych Rzeczypospolitej Polskiej (ISIL-2017). Warszawa. [In Polish: General Command of the Polish Armed Forces. 2017. Polish Air Force Maintenance Instruction (ISIL-2017). Warsaw.]
  • 6. Dowództwo Generalne Rodzajów Sił Zbrojnych (MON). 2017. Instrukcja zarządzania ruchem lotniczym w Siłach Zbrojnych Rzeczypospolitej Polskiej (IZRL-2017). Warszawa. [In Polish: General Command of the Polish Armed Forces. 2017. Polish Air Force Instruction of Air Traffic Management (IZRL-2017). Warsaw.]
  • 7. Gill Adrian. 2018. Warstwowe modele systemów bezpieczeństwa do zastosowań w transporcie szynowym. Poznań: Wydawnictwo Politechniki Poznańskiej. ISBN: 978-83-7775-517-4. [In Polish: Layered models of safety systems for rail transport applications. Poznań: Poznań University of Technology Publishing House.]
  • 8. Hlusicka M., J. Kraus. 2017. „Increasing the usability of near-sea aerodromes”. Nase More 64(2): 45-49.
  • 9. Inspektorat Sił Powietrznych (MON). 2016. Zasady wykonywania operacji nadlotniskowych przez lotnictwo Sił Zbrojnych RP. Warszawa. [In Polish: Polish Air Force Inspectorate. 2016. Polish Air Force Air Operations Rules in Airspace of Military Airfields. Warsaw.]
  • 10. International Civil Aviation Organization. 2005. International Standards. Annex 2 to the Convention on International Civil Aviation - Rules of the Air, 10th Edition.
  • 11. International Civil Aviation Organization. 2006. Procedures of Air Navigation Services. Aircraft Operations (Doc 8168), Vol. 1. Flight Procedures, Fifth Edition.
  • 12. International Civil Aviation Organization. 2009. International Standards and Recommended Practices. Annex 14 to the Convention on International Civil Aviation - Aerodromes, Vol. 1. Aerodrome Design and Operations, Fifth Edition.
  • 13. Lewitowicz Jerzy. 2015. Eksploatacyjne własności i własciwości samolotów i śmigłowców. Warszawa: Instytut Techniczny Wojsk Lotniczych.ISBN: 978-83-61021-53-7. [In Polish: Operational Properties and properties of airplanes and helicopters. Warsaw: Air Force Institute of Technology.]
  • 14. Lewitowicz Jerzy, Andrzej Żyluk. 2009. Podstawy eksploatacji statków powietrznych. Tom 5. Techniczna eksploatacja statków powietrznych. Warszawa: Instytut Techniczny Wojsk Lotniczych. ISBN 978-83-61021-20-9. [In Polish: The basics of aircraft operation. Volume 5. Technical operation of aircraft. Warsaw: Air Force Institute of Technology].
  • 15. Milkiewicz Antoni. 2009. Praktyczna aerodynamika i mechanika lotu samolotu odrzutowego w tym wysokomanewrowego. Warszawa: Instytut Techniczny Wojsk Lotniczych. ISBN: 978-83-61021-00-1. [In Polish: Practical aerodynamics and mechanics of the jet aircraft flight, including high-mile aircraft. Warsaw: Air Force Institute of Technology].
  • 16. Siergiejczyk M., J. Paś, A. Rosiński. 2018. „Reliability and operating properties of the electronic safety system used for unintended electromagnetic radiation sources”. Diagnostyka 19(4): 45-50. DOI: 10.29354/diag/95177.
  • 17. United States of America - Air Education and Training Command. 2009. AETC Tactics Techniques and Procedures 11-1 (AETCTTP 11-1). Employment Fundamentals T-38C - Introduction to Fighter Fundamentals (IFF).
  • 18. United States of America - Department of the Air Force. 2011. Air Force Manual 11-248, (AFMAN 11-248). Flying Operations - T6 Primary Flying.
  • 19. United States of America - Department of the Air Force. 2010. Air Force Manual 11-217, vol. 2 (AFMAN 11-217V2). Flying Operations - Visual Flight Procedures.
  • 20. Zabłocki Eugeniusz. 2007. Siły powietrzne. Warszawa: Akademia Obrony Narodowej. [In Polish: The Air Force. Warsaw: National Defence University].
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-77183dbc-e266-4c93-883d-f386fceb0cc9
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