Integrated fuzzy sliding mode control-guidance for dual-control missiles

被引：0

作者：

Zhao G.-R. ^{[1
]}

Han X. ^{[1
]}

Hu Z.-G. ^{[1
]}

Ma C. ^{[1
]}

Sun C. ^{[2
]}

机构：

[1] Department of Control Engineering, Naval Aeronautical and Astronautical University, Yantai

[2] Army of 91980, Yantai

来源：

Kongzhi yu Juece/Control and Decision | 2016年 / 31卷 / 02期

关键词：

Double-sliding modes control; Dual-control missile; Exponential reaching law; Fuzzy link; Integrated guidance and control; Zero effort miss;

D O I：

10.13195/j.kzyjc.2014.1694

中图分类号：

学科分类号：

摘要：

An integrated fuzzy sliding mode control-guidance method is developed for a missile with the dual-control configuration for the problem that the canard control may saturate at high angles of the attack, The model of the integrated guidance and control system is derived, and the dynamics for a missile with canard/tail control fins are analyzed. By using the double-sliding modes variable structure control theories, zero effort miss and a variable related to autopilot parameter are selected as two sliding surfaces. The former guarantees zero-miss distance, the latter provides a damped response, and the controller and guidance are integrated. A fuzzy link is added to the design of the controller based on the exponential reaching law method to avoid the chattering problem in sliding mode control. Finally, the simulation of the interception is carried out when the target does snake maneuver, and the results show the effectiveness of the proposed method. © 2016, Editorial Office of Control and Decision. All right reserved.

引用

页码：267 / 272

页数：5

共 16 条

[1] Gutman S., Superiority of canards in homing missiles, IEEE Trans on Aerospace and Electronic Systems, 39, 3, pp. 740-746, (2003)
[2] Utkin V.I., Sliding Modes in Control and Optimization, (1992)
[3] Bhat M.S., Bai D.S., Powly A.A., Et al., Variable structure controller design with application to missile tracking, J of Guidance, Control, and Dynamics, 24, 4, pp. 859-862, (2001)
[4] Thukral A., Innocenti M., Sliding mode missile pitch autopilot synthesis for high angle of attack maneuvering, IEEE Trans on Control System Technology, 6, 3, pp. 359-371, (1998)
[5] Weil R.D., Wise K.A., Blended aero and reaction jet missile autopilot design using VSS techniques, Proc of the 30th IEEE Conf on Decision and Control, pp. 2828-2829, (1991)
[6] Menon P.K., Iragavarapu V.R., Adaptive techniques for multiple actuator blending, Proc of the AIAA Guidance, Navagation, and Control Conf., (1998)
[7] Shima T., Golan O.M., Bounded differential games guidance law for dual-controlled missiles, IEEE Trans on Control Systems Technology, 14, 4, pp. 719-724, (2006)
[8] Shima T., Golan O.M., End-game guidance laws for dualcontrolled missiles, J of Aerospace Engineering, 219, 2, pp. 157-170, (2005)
[9] Lin C.F., Yueh S.R., Optimal missile guidance and control system design principle, The 1st SCS Conference on Simulation, pp. 131-136, (1984)
[10] Lin C.F., Wang Q., Speyer J.L., Et al., Integrated estimation, guidance, and control system design using game theoretic approach, Proc of the American Control Conf., pp. 3220-3224, (1992)

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