DOI QR코드

DOI QR Code

SA Review on Necessity to Calculate Navigation Errors in UTM Environments with SE Process

SE프로세스를 적용한 UTM 환경의 항법 오차 산출 필요성 검토

  • 구성관 (한서대학교 항공산업공학과) ;
  • 안효정 (한국항공우주연구원 인공지능연구실) ;
  • 김도현 (한서대학교 항공교통학과)
  • Received : 2020.10.26
  • Accepted : 2020.12.16
  • Published : 2020.12.31

Abstract

This study carries out a basic study of ways to calculate navigation errors for aircraft operating in the unmanned aerial system traffic management(UTM). Recently, research by UTM has been carried out both at home and abroad, along with the initial study of system definitions at the basic stage, operational techniques of the aircraft, and the practicality of the concept of necessary operations at the actual operational stage. This study presented after a review the factors that should be considered for the calculation of navigation errors among the factors that examine whether the actual low altitude aircraft can operate properly within UTM during its actual operation and the need to apply them in practice.

Keywords

References

  1. Park, J. H., "GNSS techniques for enhancing flight safety of UAS", Journal of Advanced Navigation Technology, 21(1), 2017, The Korean Navigation Institute, pp. 58-65. https://doi.org/10.12673/jant.2017.21.1.58
  2. Ku, S. K., An, H. J. and Lee, D. J., "Influencing factors of low-altitude unmanned aircraft navigation using AHP", International Journal of Advanced Culture Technology, 8(1), 2020, The International Promotion Agency of Culture Technology, pp. 173-181. https://doi.org/10.17703/IJACT.2020.8.1.173
  3. Seol, E. S., Kim, S. H., Ku, S. K. and Cho, J. H., "A study on systems engineering based compliance procedure for A-SMGCS", Journal of Advanced Navigation Technology, 19(1), 2015, The Korean Navigation Institute, pp. 33-40. https://doi.org/10.12673/jant.2015.19.1.33
  4. Eurocontrol, "U-space Concept of Operations Vol 1", Eurocontrol, 2019.
  5. Eurocontrol, "U-space Concept of Operations Vol 2", Eurocontrol, 2019.
  6. SESAR, "Supporting safe and secure drone operations in europe", SESAR, 2020.
  7. SESAR, "Initial view on priniple for the U-space architecture", SESAR, 2019.
  8. Eurocontrol, "UAS ATM integration operational concept", Eurocontrol, 2018.
  9. International Civil Aviation Organization, "Performance based navigation(PBN) manual", International Civil Aviation Organization, 2008.
  10. Fu, L., Zhang, J. and Li, R. "Real time total system error estimation: Modeling and application in requried navigation performance", 27(6), 2014 Chines Journal of Aeronautics, pp. 1544-1533. https://doi.org/10.1016/j.cja.2014.10.021
  11. Isik, O. K. Hong, J., Petrunin, I. and Tsourdos, A., "Integrity analysis for gps-based navi- gation of UAVs in urban environment", Robotics, 9(3), 2020, pp. 1-20.
  12. Gesister, R., Limmer, L., Rippl, M. and Dautermann, T., Integrated Communications Navigation and Surveillance(ICNS) Conference, 2018.
  13. Ribeiro, M., Ellerbroek, J. and Hoekstra, J., "Analysis of conflict resolution methods for manned and unmanned aviation using fast time simulations", 9th SESAR Innovation Days, 2019.
  14. European global navigation satellite systems agency, "Drones operations", European Global Navigation Satellite Systems Agency, 2017.