Journal of Korean Society of Industrial and Systems Engineering (산업경영시스템학회지)

Society of Korea Industrial and System Engineering (한국산업경영시스템학회)
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Optimized Air Force Flight Scheduling Considering Pilot' s Mission Efficiency

조종사 임무 효율을 고려한 공군 비행 스케줄 최적화

  • Kwon, Min Seok (Department of Systems Engineering, Republic of Korea Air Force Academy) ;
  • Yoon, Chan Il (Department of Systems Engineering, Republic of Korea Air Force Academy) ;
  • Kim, Jiyong (Department of Systems Engineering, Republic of Korea Air Force Academy)
  • 권민석 (공군사관학교 시스템공학과) ;
  • 윤찬일 (공군사관학교 시스템공학과) ;
  • 김지용 (공군사관학교 시스템공학과)
  • Received : 2020.10.30
  • Accepted : 2020.12.22
  • Published : 2020.12.31
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Abstract

Human and material resource planning is one representative example of Operations Research. Resource planning is important not only in civilian settings but also in military ones. In the Air Force, flight scheduling is one of the primary issues that must be addressed by the personnel who are connected to flight missions. However, although the topic is of great importance, relatively few studies have attempted to resolve the problem on a scientific basis. Each flight squadron has its own scheduling officers who manually draw up the flight schedules each day. While mistakes may not occur while drafting schedules, officers may experience difficulties in systematically adjusting to them. To increase efficiency in this context, this study proposes a mathematical model based on a binary variable. This model automatically drafts flight schedules considering pilot's mission efficiency. Furthermore, it also recommends that schedules be drawn up monthly and updated weekly, rather than being drafted from scratch each day. This will enable easier control when taking the various relevant factors into account. The model incorporates several parameters, such as matching of the main pilots and co-pilots, turn around time, availability of pilots and aircraft, monthly requirements of each flight mission, and maximum/minimum number of sorties that would be flown per week. The optimal solution to this model demonstrated an average improvement of nearly 47% compared with other feasible solutions.

Keywords

References

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