Journal of the Korean Society for Aviation and Aeronautics (한국항공운항학회지)

The Korean Society for Aviation and Aeronautics (한국항공운항학회)
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Research on Statistical Analysis of Vertical Acceleration Events during Aircraft Landing

항공기 착륙 수직 가속도 이벤트 통계적 분석 연구

  • Je-Hyung Jeon ;
  • Hyeon Deok Kim
  • 전제형 (에어부산 안전보안실 FOQA Analys) ;
  • 김현덕 (한국항공대학교 항공운항학과)
  • Received : 2024.05.30
  • Accepted : 2024.06.10
  • Published : 2024.06.30
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Abstract

Despite the innovative technological advances in the aviation industry, hard landing events that occur during aircraft landing account for 13% of all accidents. Hard landing when landing an aircraft affects normal operation by generating a large load on the landing gear and the fuselage. In order to identify these risk factors, the airline monitors the high vertical acceleration event, a precursor to hard landing, through QAR (Quick Access Recorder) flight data analysis, and prepares and implements mitigation measures. In this study, it is intended to contribute to safety management based on flight data analysis that identifies the characteristics of high vertical acceleration G event data that can cause such hard landing and detailed parameters of precursor signs, and to identify the causal relationship of the occurrence of the event by applying statistical analysis methods such as variance analysis, correlation analysis, and regression analysis models to identify the characteristics of the event occurrence and eliminate the cause in advance.

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References

  1. International Air Transport Association, "Safety Report 2019", IATA, 2020, pp.47-73.
  2. Oh, Y. K., Sim, S. K., and Shin, K. S., "A study of the effects of hard landing on aircraft structure", Journal of the Korea Institute of Military Science and Technology, 2011, pp.805-811.
  3. Federal Aviation Administration, "Flight operational quality assurance", Advisory Circular 120(82), 2004, pp.1-25.
  4. Yang, X., "Research of general aviation flight data analysis", Proceedings of 2011 International Conference on Electronic & Mechanical Engineering and Information Technology, 9, 2011, pp.4497-4499.
  5. International Civil Aviation Organization, "Manual on Flight Data Analysis Programmes (FDAP) (First Edition)", Vol. 10000 AN/501, Doc. Montreal, Quebec: International Civil Aviation Organization, 2014.4.
  6. Schwaiger, F., and Holzapfel, F., "Fast decoding of ARINC 717 flight data recordings", AIAA Scitech 2021 Online Virtual Forum, 2021, pp.25-34.
  7. International Civil Aviation Organization, "Manual on Flight Data Analysis Programmes (FDAP) (First Edition)", Vol. 10000 AN/501, Doc. Montreal, Quebec: International Civil Aviation Organization, 2021.