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弹射座椅不利姿态控制规律设计

毛晓东 林贵平 郁嘉

毛晓东, 林贵平, 郁嘉等 . 弹射座椅不利姿态控制规律设计[J]. 北京航空航天大学学报, 2016, 42(3): 426-434. doi: 10.13700/j.bh.1001-5965.2015.0188
引用本文: 毛晓东, 林贵平, 郁嘉等 . 弹射座椅不利姿态控制规律设计[J]. 北京航空航天大学学报, 2016, 42(3): 426-434. doi: 10.13700/j.bh.1001-5965.2015.0188
MAO Xiaodong, LIN Guiping, YU Jiaet al. Design of control law for ejection seat under adverse attitudes[J]. Journal of Beijing University of Aeronautics and Astronautics, 2016, 42(3): 426-434. doi: 10.13700/j.bh.1001-5965.2015.0188(in Chinese)
Citation: MAO Xiaodong, LIN Guiping, YU Jiaet al. Design of control law for ejection seat under adverse attitudes[J]. Journal of Beijing University of Aeronautics and Astronautics, 2016, 42(3): 426-434. doi: 10.13700/j.bh.1001-5965.2015.0188(in Chinese)

弹射座椅不利姿态控制规律设计

doi: 10.13700/j.bh.1001-5965.2015.0188
详细信息
    作者简介:

    毛晓东 男,讲师。主要研究方向:弹射救生技术、飞机与发动机防除冰。Tel.:024-89738720 E-mail:mxdbh@163.com

    通讯作者:

    毛晓东,Tel.:024-89738720 E-mail:mxdbh@163.com

  • 中图分类号: V244.21

Design of control law for ejection seat under adverse attitudes

  • 摘要: 弹射座椅在低空不利姿态下的弹射救生性能是第四代弹射座椅的关键技术,而控制规律算法设计则是姿态轨迹控制的核心问题。提出了一种全新的控制规律设计方法,通过建立弹射全过程的轨迹姿态仿真模型、设计控制参数寻优计算模型,得到离散化的最优控制参数集。利用基于误差逆向传播(BP)算法的多层前馈神经网络模型,获得弹射状态全区间范围内的连续性控制规律算法。以单滚转不利姿态为例,进行了控制规律算法的设计验证。结果表明,采用本文控制规律算法后,弹射座椅在最低安全救生高度性能指标上远远优于多模态控制规律、美俄联合研制的K36Л-3.5型座椅,并基本满足国军际的性能要求。设计方案简单明确,结果算法逼近理论最优值,可以为第四代弹射座椅控制规律设计提供一定的参考意义。

     

  • [1] 徐世坤. 弹射救生程序控制的发展[J].航空科学技术,1994(4):14-17. XU S K.The development of control law for escape system[J].Aeronautical Science and Technology,1994(4):14-17(in Chinese).
    [2] 周方. 提高低空不利姿态下救生成功率的措施[J].航空科学技术,1998(6):18-20. ZHOU F.Measures to improve the successfulness of ejection-escaping in the low altitude positions[J].Aeronautical Science and Technology,1998(6):18-20(in Chinese).
    [3] ROSS D A, CULHANE D,FERRELL S.Digital recovery sequencer-ACES ejection seats[C]//Proceedings of the 42nd Annual SAFE Symposium.Creswell,OR:SAFE,2004:305-312.
    [4] CALKINS R B. ACES II ejection seat improvements[C]//Proceedings of the 34th Annual SAFE Symposium.Creswell,OR:SAFE,1996:86-91.
    [5] MILLER B A. NACES-The program and the seat[C]//Proceedings of the 24th Annual SAFE Symposium.Creswell,OR:SAFE,1987:134-139.
    [6] D'AULERIO L O U, YOST P.Navy aircrew common ejection seat(NACES)program summary[J].SAFE Journal,1991,21:25-29.
    [7] 李锐. K36Л-3.5弹射座椅工作模式的探索[J].中航救生,2004,26(3):1-6. LI R.Exploration of K36Л-3.5 ejection seat operation mode[J].China Aeronautical and Astronautical Life-Support,2004,26(3):1-6(in Chinese).
    [8] MCCAULEY D, SUMMER M H,WOOD D,et al.Future advanced sequencer technology(FAST)[C]//Proceedings of the 39th Annual SAFE Symposium.Creswell,OR:SAFE,2001:95-110.
    [9] 李锐. 第四代弹射座椅的关键技术[J].航空科学技术,1995(4):14-17. LI R.The crucial technology of the 4th generation ejection seat[J].Aeronautical Science and Technology,1995(4):14-17(in Chinese).
    [10] SWANSON D E, HERNDON G F.CREST system design[C]//Proceedings of the 24th Annual SAFE Symposium.Creswell,OR:SAFE,1987:27-31.
    [11] WHEELER C M, NIEDZIELSKI P,BARNETTE B,et al.Fourth generation escape system technology demonstration pintle nozzle controllable propulsion system[C]//Proceedings of the 36th Annual SAFE Symposium.Creswell,OR:SAFE,1998:133-141.
    [12] CARLSON R, LUCAS C,TAM B.Multi-axis pintle attitude control(MAXPAC)device for ACES II seat stabilization[C]//Proceedings of the 33rd Annual SAFE Symposium.Creswell,OR:SAFE,1995:225-232.
    [13] EVERS S. Russian ejection seat may fly in U.S.JAST[J].Aviation Week and Space Technology,1995,143(8):64-65.
    [14] 李锐. K36Л-3.5弹射座椅性能分析[J].中航救生,2005,28(1):1-6. LI R.Performance analysis of K36Л-3.5 ejection seats[J].China Aeronautical and Astronautical Life-Support,2005,28(1):1-6(in Chinese).
    [15] 封文春,林贵平. 弹射座椅多参数多模态控制仿真分析[J].系统仿真学报,2007,19(10):2283-2292. FENG W C,LIN G P.Multi-parameter and multi-mode control simulation analyses of ejection seat[J].Journal of System Simulation,2007,19(10):2283-2292(in Chinese).
    [16] 封文春. 弹射座椅多参数多模态控制规律设计与仿真[D].北京:北京航空航天大学,2006:90-113. FENG W C.The multi-parameter and multi-mode control law design and simulation of ejection seat[D].Beijing:Beihang University, 2006:90-113(in Chinese).
    [17] 张汉镔. 飞行器安全救生[M].北京:北京航空航天大学出版社,1990:104-120. ZHANG H B.Aircraft escape system[M].Beijing:Beihang University Press,1990:104-120(in Chinese).
    [18] 郁嘉,毛晓东, 林贵平,等.风对弹射座椅救生性能的影响[J].航空学报,2013,34(4):727-740. YU J,MAO X D,LIN G P,et al.Impact of wind on ejection seat escape performance[J].Acta Aeronautica et Astronautica Sinica,2013,34(4):727-740(in Chinese).
    [19] 郁嘉,林贵平, 毛晓东.弹射救生数值仿真及不利姿态下救生性能分析[J].航空学报,2010,31(10):1927-1932. YU J,LIN G P,MAO X D.Numerical simulation of ejection seat and analysis of performance under adverse attitudes[J].Acta Aeronautica et Astronautica Sinica,2010,31(10):1927-1932(in Chinese).
    [20] 郁嘉,林贵平, 吴铭.弹射座椅减速性能的数值仿真计算[J].航空学报,2006,27(6):1033-1038. YU J,LIN G P,WU M.Numerical simulation of deceleration performance for ejection seat[J].Acta Aeronautica et Astronautica Sinica,2006,27(6):1033-1038(in Chinese).
    [21] 周开利,康耀红. 神经网络模型及其MATLAB仿真程序设计[M].北京:清华大学出版社,2005:121-148. ZHOU K L,KANG Y H.Neural network model and MATLAB simulating program design[M].Beijing:Tsinghua University Press,2005:121-148(in Chinese).
    [22] 毛晓东,郁嘉, 林贵平.过载与弹射速度关系研究及神经网络实现[J].航空学报,2010,31(10):1907-1913. MAO X D,YU J,LIN G P.Study of relationship between load factor and ejection velocity and its neural network implementation[J].Acta Aeronautica et Astronautica Sinica,2010,31(10):1907-1913(in Chinese).
    [23] MAO X D, YU J,LIN G P.Predicting ejection velocity of ejection seat via back propagation neural network[J].Journal of Aircraft,2011,48(2):668-672.
    [24] 中华人民共和国国防科学技术工业委员会. 弹射座椅型乘员应急离机救生系统通用规范:GJB-1800A-2007[S].北京:中国航空工业集团公司, 2007. The Commission of Science,Technology and Industry for National Defense of the PRC.General specification for ejection seat type of aircrew emergency escape system:GJB-1800A-2007[S].Beijing:Aviation Industry Corporation of China,2007(in Chinese).
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出版历程
  • 收稿日期:  2015-03-31
  • 网络出版日期:  2016-03-20

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