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基于最优二次型理论的滚转导弹三回路驾驶仪设计与研究
Research on Three-loop Autopilot for Rolling Missile Based on Linear Quadratic Optimal Control Theory
【摘要】 建立了存在交叉耦合的滚转导弹动力学模型,并将通道耦合效应视为外界干扰,利用最优二次型(LQR)控制理论,提出了一种三回路驾驶仪的单输入多输出(SIMO)设计方法。分析了三回路驾驶仪的基本特点,并研究了权系数矩阵与驾驶仪性能指标之间的关系,可辅助设计者更合理地选择权系数矩阵。将考虑耦合的动力学模型视为多输入多输出(MIMO)系统,对滚转导弹控制系统进行了设计。设计结果表明:对于存在状态耦合的滚转导弹而言,以SIMO设计的三回路驾驶仪可以很好地抑制耦合的影响,与MIMO设计得到的控制律差异很小。通过对滚转导弹耦合系统的非线性数学仿真,验证了以上结论的正确性。
【Abstract】 A dynamical model including cross-coupling effects of rolling missile is built. The couplings among the channels are regarded as external interference. The linear quadratic( LQR) optimal control theory is used to propose a design method of three-loop autopilot and analyze its general features. The research on the relationship between the weight coefficient matrix and the autopilot performance could assist a designer in choosing the weight coefficient matrix. The dynamical model is perceived as multiple-input multiple-output( MIMO) system,and the corresponding control system of rolling missile is designed. The results show that the three-loop autopilot using single-channel design do well in restraining the influence of couplings in rolling missile with state couplings,which has little difference from the control law derived by MIMO design. The simulation validates the correctness of the above conclusion.
【Key words】 control and navigation technology of aerocraft; rolling missile; three-loop autopilot; linear quadratic regulator; channel coupling;
- 【文献出处】 兵工学报 ,Acta Armamentarii , 编辑部邮箱 ,2015年05期
- 【分类号】TJ765.4
- 【被引频次】4
- 【下载频次】187