引用本文:周池军,雷虎民,朱纪洪,尹航.基于分支分析的机翼摇晃预测与抑制[J].控制理论与应用,2016,33(2):233~242.[点击复制]
ZHOU Chi-jun,LEI Hu-min,ZHU Ji-hong,YIN Hang.Prediction and suppression of wing rock using bifurcation analysis[J].Control Theory and Technology,2016,33(2):233~242.[点击复制]
基于分支分析的机翼摇晃预测与抑制
Prediction and suppression of wing rock using bifurcation analysis
摘要点击 2718  全文点击 1668  投稿时间:2015-06-11  修订日期:2015-08-29
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DOI编号  10.7641/CTA.2016.50522
  2016,33(2):233-242
中文关键词  机翼摇晃  多自由度模型  分支分析  自适应控制  反步控制
英文关键词  wing rock  multiple degree-of-freedom model  bifurcation analysis  adaptive control  backstepping control
基金项目  国家自然科学基金项目(61104082)资助.
作者单位E-mail
周池军* 空军工程大学 防空反导学院 zhouchijun666@126.com 
雷虎民 空军工程大学 防空反导学院  
朱纪洪 清华大学计算机科学与技术系  
尹航 清华大学计算机科学与技术系  
中文摘要
      针对现代战斗机大迎角飞行时的机翼摇晃预测与抑制问题, 根据其主要动态特性建立了新的横侧向多自 由度模型, 通过开环分支分析准确预测了机翼摇晃对应的临界迎角. 在此基础上考虑模型不确定性和舵面位置限 幅的影响, 利用滤波器动态对跟踪误差进行补偿, 设计了一种约束滤波自适应反步控制算法, 通过采用补偿误差代 替跟踪误差进行自适应律设计, 确保了输入饱和条件下自适应过程的稳定, 并结合闭环分支分析实现了对机翼摇晃 运动的有效抑制. 六自由度仿真验证了多自由度模型的有效性和控制算法的鲁棒性.
英文摘要
      To predict and suppress the wing rock phenomenon appeared at high angle of attack, a new multiple degreeof- freedom model is first established via reasonable simplifications of lateral dynamics as well as a considerate access to wing rock’s primary properties. The wing rock motion is then predicted accurately in the open-loop analysis through using the bifurcation method. On this basis, a robust constraint adaptive backstepping control algorithm is proposed in the presence of model uncertainties and external disturbances, in which a command filter is introduced to impose magnitude limit on actuators and the tracking errors are compensated by filter dynamics. Moreover, the tracking errors in adaptive laws are replaced by compensated errors which renders a stable adaptation process even though the input saturation occurs. The closed-loop bifurcation analysis show that the wing rock motion is suppressed efficiently. Finally, the effectiveness of the multiple degree-of-freedom model and robustness of the proposed control algorithm are verified by six-degree-of-freedom numerical simulation.