航空学报 > 2019, Vol. 40 Issue (11): 323227-323227   doi: 10.7527/S1000-6893.2019.23227

考虑驾驶仪动态特性的固定时间收敛制导律

张宽桥1, 杨锁昌1, 李宝晨2, 刘畅1   

  1. 1. 陆军工程大学石家庄校区 导弹工程系, 石家庄 050003;
    2. 陆军工程大学 科研学术处, 南京 210000
  • 收稿日期:2019-06-19 修回日期:2019-07-15 出版日期:2019-12-03 发布日期:2019-09-02
  • 通讯作者: 张宽桥 E-mail:zkuanqiao@163.com

Fixed-time convergent guidance law considering autopilot dynamics

ZHANG Kuanqiao1, YANG Suochang1, LI Baochen2, LIU Chang1   

  1. 1. Department of Missile Engineering, Shijiazhuang Campus of Army Engineering University, Shijiazhuang 050003, China;
    2. Department of Scientific Research, Army Engineering University, Nanjing 210000, China
  • Received:2019-06-19 Revised:2019-07-15 Online:2019-12-03 Published:2019-09-02

摘要: 针对打击机动目标的制导问题,设计了一种同时考虑攻击角度约束、自动驾驶仪动态特性和固定时间收敛的新型制导律。首先,基于非奇异终端滑模控制和固定时间稳定性理论,采用反步递推方法设计制导律。在制导律设计过程中,设计了一种固定时间收敛的非奇异终端滑模面,基于固定时间控制和滑模控制,设计虚拟控制律,构造一种非线性一阶滤波器解决传统反步设计中的"微分膨胀"问题。基于超螺旋算法和固定时间稳定性理论,设计了一种固定时间收敛的滑模干扰观测器,用于估计目标机动等干扰。然后,基于Lyapunov稳定性理论,对制导律的固定时间稳定性进行了证明,并给出了收敛时间的表达式。最后,通过仿真分析,验证了所提制导律的有效性,和现有制导律相比,所提制导律具有较高的制导精度和角度约束精度、较快的系统收敛速度以及较少的能量消耗。

关键词: 制导律, 攻击角度约束, 干扰观测器, 固定时间收敛, 反步控制, 终端滑模控制, 自动驾驶仪动态特性

Abstract: A new guidance law considering the impact angle constraint, autopilot dynamic characteristics, and fixed-time convergence is designed for the guidance problem of attacking maneuvering targets. First, based on nonsingular terminal sliding mode control and fixed-time stability theory, the backstepping method is used to design the guidance law. In the process of the design, a nonsingular terminal sliding mode surface with fixed-time convergence is designed. Based on fixed-time control and sliding mode control, the virtual control law is designed and a nonlinear first-order filter is constructed to solve the problem of "differential expansion" in the traditional backstepping design. Based on the super-twisting algorithm and fixed-time stability theory, a fixed-time convergence sliding mode disturbance observer is designed to estimate the target maneuvering and other interferences. Then, based on the Lyapunov stability theory, the fixed-time stability of the guidance law is proved, and the expression for convergence time is given. Finally, the effectiveness of the proposed guidance law is verified by simulation analysis. Compared with the existing guidance laws, the proposed guidance law has higher guidance precision and angle constraint accuracy, faster system convergence speed, and less energy consumption.

Key words: guidance law, impact angle constraint, disturbance observer, fixed-time convergence, backstepping control, terminal sliding mode control, autopilot dynamics

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