非最小相位静不稳定导弹控制分析

2014 14th International Conference on Control, Automation and Systems (ICCAS 2014) Pub Date : 2014-12-18 DOI:10.1109/ICCAS.2014.6987909

Fan Jun-fang, Chen Ying, Lin Peng

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引用次数: 4

摘要

详细介绍了一种新的战术导弹控制评估方法。首先分析了尾控战术导弹的非最小相位特性和静态不稳定性。然后推导了频域可控分析。针对传统稳定裕度方法的局限性，引入了向量裕度，并与灵敏度函数进行了比较，揭示了两者的本质关系。设计了一种纵向三回路自动驾驶仪，用于稳定非最小相位静态不稳定导弹动力学，并将其作为给定的具有相同闭环特征方程和时域阶跃响应的所有可用线性自动驾驶仪拓扑的基线。然后采用向量裕度法对所有可用自动驾驶仪的稳定性进行计算和评价。分析和计算结果表明，向量裕度法能较好地评价系统的稳定性。

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Control analysis for a non-minimum phase static unstably missile

A novel control evaluation approach for tactical missile is detailed. The characteristics of non-minimum phase and static instability of a tail-controlled tactical missile are presented firstly. Then the frequency-domain controllable analysis is derived. Due to the limitations of traditional stability margins, the vector margin (VM) is introduced and compared with sensitivity function to show their essential relationship. A longitudinal three-loop autopilot is designed to stabilize the non-minimum phase static unstably missile dynamics and used as the baseline for all the tan available linear autopilot topologies given with the identical closed-loop characteristic equation and time-domain step response. Then vector margin method is adopted to compute and evaluate the stability of all available autopilots. The analysis and computation results show that the vector margin method could give better evaluation on system stability.

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2014 14th International Conference on Control, Automation and Systems (ICCAS 2014)

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