Browse > Article
http://dx.doi.org/10.5139/JKSAS.2021.50.1.47

Development of Air to Air Mission Tactics for Manned-Unmanned Aerial Vehicles Teaming  

Hwang, Seong-In (R.O.K Air Force Academy)
Yang, Kwang-Jin (R.O.K Air Force Academy)
Oh, Jihyun (Agency for Defense Development)
Seol, Hyeonju (Chungnam National University)
Publication Information
Journal of the Korean Society for Aeronautical & Space Sciences / v.50, no.1, 2022 , pp. 47-57 More about this Journal
Abstract
UAVs have been deployed various missions such as deception, reconnaissance and attack since they have been applied in battlefield and achieved missions successfully instead of man. In the past, it is impossible for UAVs to conduct autonomous missions or cooperative mission between manned aircraft due to the limitation of the technology. However, theses missions are possible owing to the advance in communication and AI Technology. In this research, we identified the possible cooperative missions between manned and unmanned team based on air-to-air mission. We studied cooperative manned and unmanned tactics about fighter sweep mission which is the core and basic operation among various air-to-air missions. We also developed cooperative tactics of manned and unmanned team by classifying nonstealth and stealth confrontational tactics. Hereafter, we verified the validity of the suggested tactics using computer simulations.
Keywords
MUMT; Ait to Air Mission; Mosaic Warfare; Fighter Sweep;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Park, S., Deyst, J. and How, J. P., "Performance and Lyapunov Stability of a Nonlinear Path-Following Guidance Method," AIAA Journal on Guidance, Control, and Dynamics, Vol. 30, No. 6, November 2007, pp. 1718~1728.   DOI
2 Clark, B., Patt, D. and Schramm, H., "Mosaic Warfare Exploiting Artificial Intelligence And Autonomous Systems to Implement Decision-Centric Operations," CSBA, February 2020.
3 www.darpa.mil/work-with-us/darpa-tiles-together-a-vision-of-mosiac-warfare
4 www.thedrive.com/the-war-zone/14161/darpas-flying-missile-rail-seems-to-be-more-about-manufacturing-than-combat
5 www.dailymail.co.uk/sciencetech/article-7062175/F-35-F-15EX-fighter-drone-wingmen-coming-years-Skyborg-programme.html
6 www.defensenews.com/air/2021/03/02/australia-makes-another-order-for-boeing-made-loyal-wingman-drones-after-a-successful-first-flight/
7 National Defense Strategy Commission, "Providing for the Common Defense: The Assessment and Recommendations of the National Defense Strategy Commission," 2018.
8 www.defenceconnect.com.au/strike-air-combat/6553-us-air-force-announces-contenders-for-local-loyal-wingman-competition, July 2020.
9 Gunzinger, M., Rehberg, C. and Autenried, L., "Five Priority for Air Force's Future Combat Air Force," CSBA, July 2020.
10 R.O.K AirForce, "Counterair Opeartion 3-1," 2017.
11 https://ko.wikipedia.org/wiki/AIM-120
12 https://defense-update.com/20190928_okhotnik_mumt.html
13 Gaitanakis, G., Limnaios, G. and Zikidis, K., "AESA radar and IRST against low observable threats," Aircraft Engineering and Aerospace Technology, Vol. 92, No. 9, March 2020, pp. 1421~1428.   DOI
14 U.S. Joint Staff, "2018 National Defense Strategy of The Unite States of America," 2018.
15 O'donoughue, N., Mcbirney, S. and Persons, B., "Distributed Kill Chains: Drawing Insights for Mosaic Warfare from the Immune System and from the Navy," RAND, California, 2021.
16 Tyrell, T., Funk, C. and Marton, N., "AIM-120C-5 Performance Assessment for Digital Combat Simulation Enhancement, Revision 2," 2014.
17 Park, S. H., Deyst, J. and How, J. P., "A new nonlinear guidance logic for trajectory tracking," AIAA Guidance, Navigation, and Control Conference (GNC), August 2004.
18 Gaitanakis, G., Vlastaras, A., Vassos, N. and Limnaios, G., "InfraRed Search & Track Systems as an Anti-Stealth Approach," Journal of Computations & Modelling, Vol. 9, No. 1, 2019, pp. 33~53
19 http://defense-update.com/features/2010/november/02112010_das_missile_track.html
20 Moir, I., and Seabridge, A., "Military Avionics Systems," Wiley press, NewYork, 2006.
21 Kim, J. H., Seo, W. S., Choi K. Y. and Ryoo, C. K., "Analysis of SEAD Mission Procedures for Manned-Unmanned Aerial Vehicles Teaming," Journal of The Korean Society for Aeronautical and Space Sciences, Vol. 47, No. 9, 2019, pp. 678~685.   DOI