Observer-based Guidance Law Accounting for Second-order Dynamics of Missile Autopilots 被引量：5

Observer-based Guidance Law Accounting for Second-order Dynamics of Missile Autopilots

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摘要 Accounting for the missile autopilot as second-order dynamics, an observer-based guidance law is designed based on the dynamic surface control method. Some first-order low-pass filters are introduced into the design process to avoid the occurrence of high-order derivatives of the line of sight angle in the expression of guidance law such that it can be implemented in practical applications. The proposed guidance law is effective in compensating the bad influence of the autopilot lag on guidance accuracy. In the simulations of intercepting non maneuvering targets, targets with step acceleration, and targets with sinusoidal acceleration respectively, the guidance law is compared with the adaptive sliding mode guidance law in the presence of missile autopilot lag. The simulation results show that the proposed guidance law is able to guide a missile to accurately intercept a maneuvering target, even if it escapes in a great and fast maneuver and the autopilot has a relatively large lag. Accounting for the missile autopilot as second-order dynamics, an observer-based guidance law is designed based on the dynamic surface control method. Some first-order low-pass filters are introduced into the design process to avoid the occurrence of high-order derivatives of the line of sight angle in the expression of guidance law such that it can be implemented in practical applications. The proposed guidance law is effective in compensating the bad influence of the autopilot lag on guidance accuracy. In the simulations of intercepting non maneuvering targets, targets with step acceleration, and targets with sinusoidal acceleration respectively, the guidance law is compared with the adaptive sliding mode guidance law in the presence of missile autopilot lag. The simulation results show that the proposed guidance law is able to guide a missile to accurately intercept a maneuvering target, even if it escapes in a great and fast maneuver and the autopilot has a relatively large lag.

作者 Ping-Ping Qu Di Zhou

机构地区 Dept. of Control Science and Engineering School of Electronics and Information Engineering

出处《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2013年第1期17-22,共6页 哈尔滨工业大学学报（英文版）

基金 Sponsored by the Natural Science Foundation of China(Grant No.61174203) the Program for New Century Excellent Talents in University(Grant No.NCET-08-0153) the Aviation Science Foundation of China(Grant No.20110177002)

关键词 MISSILE guidance law dynamic surface control AUTOPILOT OBSERVER missile guidance law dynamic surface control autopilot observer

分类号 V448.133 [航空宇航科学与技术—飞行器设计]

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Journal of Harbin Institute of Technology(New Series)

2013年第1期

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