Zhang Jiankang, Cheng Long, Huang Jun, et al. Mission-based operational effectiveness evaluation model of combat aircraft[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(12): 1279-1283. (in Chinese)
Citation: Zhang Jiankang, Cheng Long, Huang Jun, et al. Mission-based operational effectiveness evaluation model of combat aircraft[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(12): 1279-1283. (in Chinese)

Mission-based operational effectiveness evaluation model of combat aircraft

  • Received Date: 07 Sep 2004
  • Publish Date: 31 Dec 2005
  • To the combat aircraft operational effectiveness evaluation, mission effectiveness concept was presented based on combat aircraft’s different missions. With the probability analysis method, aircraft operation procedures were studied and abstracted into a group of probability values, and relevant evaluation models were built for several different typical operation procedures. These models have much more matter-of-fact significance and will be very helpful for commanders to make much reasonable and scientific mission plans and thus make much better use of combat aircraft and weapons available to implement certain mission. The new models are simple, easy understanding and conducting, their computing resources and time are more acceptable than that of traditional emulation methods while giving reasonable results with calculation accuracy close to the former. Example results show that the models are available and believable when evaluating mission-based operational effectiveness of combat aircraft, which concerns different aircraft platform with different weapon striking different target in different combat scenario.

     

  • [1] Phill Smith E M, O’Hara J, Griffith D. Combat UAV real-time SEAD mission simulation . AIAA 99-4185,1999 [2] Sivazlian B D. Aircraft sortie effectiveness model . AD-A211594,1989 [3] 范 勇,李为民.基于概率分析法的无人攻击机作战效能分析模型研究[J].现代防御技术, 2003, 31(6):60~64 Fan Yong, Li Weimin. Combat effectiveness analysis models research of unmanned combat aerial vehicle based on probabilistic method[J]. Modern Defence Technology, 2003, 31(6):60~64(in Chinese) [4] 朱宝鎏,朱荣昌,熊笑非.作战飞机效能评估[M].北京:航空工业出版社,1993 Zhu Baoliu, Zhu Rongchang, Xiong Xiaofei. Effectiveness evaluation of combat aircraft[M]. Beijing:Aeronautics Industry Press, 1993(in Chinese) [5] 黄 俊,孙义东,武 哲,等.战斗机对地攻击作战效能分析[J].北京航空航天大学学报,2002,28(3):354~357 Huang Jun, Sun Yidong, Wu Zhe, et al. Operational effectiveness analysis of air-to-ground strike for battle-plane[J]. Journal of Beijing University of Aeronautics and Astronautics, 2002, 28(3):354~357(in Chinese) [6] Przemieniecki J S. Mathematical methods in defense analyses[M]. Washington DC:AIAA inc,1994 [7] 李俊生,梁 伟,赵 伟.弹道导弹突防数概率分布列计算模型[J].现代防御技术,2004,32(2):11~14 Li Junsheng, Liang Wei, Zhao Wei. Mathematics model of probability distributing sequence of penetrable missile amount when several TBMs penetrate doublelayer defence system[J]. Modern Defence Technology, 2004, 32(2):11~14(in Chinese) [8] 金伟新."串并联"模型框架与作战效能评估[J].系统工程与电子技术,2001,23(7):41~43 Jin Weixin. The series-parallel connection models frame and the combat capability evaluation[J]. Systems Engineering and Electronics, 2001, 23(7):41~43(in Chinese)
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