Novel robust control framework for morphing aircraft 被引量：6

Novel robust control framework for morphing aircraft

下载PDF

导出

摘要 This paper develops a robust control methodology for a class of morphing aircraft,which is called innovative control effector（ICE） aircraft.For the ICE morphing aircraft,the distributed arrays of hundreds of shape-change devices are employed to stabilize and maneuver the air vehicle.Because the morphing aircraft have the inherent uncertainty and varying dynamics due to the alteration of their configuration,a desired control performance can not be satisfied with a fixed feedback controller.Therefore,a novel control framework including an adaptive flight control law and an adaptive allocation algorithm is proposed.Firstly,a state feedback adaptive control law is designed to guarantee closed-loop stability and state tracking in the presence of uncertain dynamics caused by the wing shape change due to different flight missions.In the control allocation,many distributed arrays are managed in an optimal way to improve the robustness of the system.The scheme is used to an uncertain morphing aircraft model,and the simulation results demonstrate their performance. This paper develops a robust control methodology for a class of morphing aircraft,which is called innovative control effector（ICE） aircraft.For the ICE morphing aircraft,the distributed arrays of hundreds of shape-change devices are employed to stabilize and maneuver the air vehicle.Because the morphing aircraft have the inherent uncertainty and varying dynamics due to the alteration of their configuration,a desired control performance can not be satisfied with a fixed feedback controller.Therefore,a novel control framework including an adaptive flight control law and an adaptive allocation algorithm is proposed.Firstly,a state feedback adaptive control law is designed to guarantee closed-loop stability and state tracking in the presence of uncertain dynamics caused by the wing shape change due to different flight missions.In the control allocation,many distributed arrays are managed in an optimal way to improve the robustness of the system.The scheme is used to an uncertain morphing aircraft model,and the simulation results demonstrate their performance.

作者 Chunsheng Liu Shaojie Zhang

机构地区 College of Automation Engineering

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2013年第2期281-287,共7页 系统工程与电子技术（英文版）

基金 supported by the National Natural Science Foundation of China(61074063)

关键词 morphing aircraft flight control law adaptive control allocation model uncertainty morphing aircraft； flight control law； adaptive control allocation； model uncertainty

分类号 V249.1 [航空宇航科学与技术—飞行器设计]

引文网络
相关文献

参考文献19

1G. Tao, S. H. Chefi, J. T. Fei. An adaptive actuator fai- lure compensation scheme for controlling a morphing aircraft model. Proc. of the 42nd IEEE Conference on Decision and Control, 2003.
2A. C. Hurst, A. M. Wickenheiser, E. Garcia. Control of an adaptive aircraft with a morphing input. The 50th AIAA/ASME/ ASCE/AHS/ASC Structures, Structural Dynamics, and Materi- als Conference, AIAA 2009-2130.
3E. A. Leylekl, M. E Costello. Benefits of autonomous mor- phing aircraft in loiter and attack missions. AIAA Atmospheric Flight Mechanics Conference, AIAA 2010-7507.
4A. V. Popov, T. L. Grigorie, R. M. Botez. Modeling and test- ing of a morphing wing in open-loop architecture. Journal of Aircraft, 2010, 47(3): 917-923.
5T. M. Seigler, D. A. Neal. Analysis of transition stability for morphing aircraft. Journal of Guidance, Control, and Dynam- ics, 2009, 32(6): 1947-1953.
6C. S. Liu, C. T. Li, Z. He. Adaptive control of a morphing aircraft through updating the number of actuators. AIAA Guid- ance, Navigation, and Control Conference, AIAA 2012-4446.
7Y. Liu, L. G. Crespo. Adaptive control allocation in the pres- ence of actuator failures. AIAA Guidance, Navigation, and Control Conference, AIAA 2010-7772.
8Y. Yildiz, I. V. Kolmanovsky. A control allocation technique to recover from pilot-induced oscillations (CAPIO) due to actua- tor rate limiting. Proc. of American Control Conference Mar- riott Waterfront, 2010.
9L. Zaccarian. Dynamic allocation for input redundant control systems. Automatica, 2009, 45(6): 1431-1438.
10W. C. Durham. Constrained control allocation. Journal of Guidance, Control and Dynamics, 1993, 16(4): 717-725.

同被引文献62

1宁伟华,陈绍顺,王凤山.求解整数规划的混合遗传算法[J].空军工程大学学报（自然科学版）,2004,5(6):80-83. 被引量：10
2杨恩泉,高金源.先进战斗机控制分配方法研究进展[J].飞行力学,2005,23(3):1-4. 被引量：33
3KhalilHK.非线性系统[M].3版.北京:电子工业出版社,2011.
4Raney 13 L, Montgomery R C, Green L L. Flight control using dis- tributed shape-change effector arrays [ C ]//41 st AIAA/ASME/ ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference and Exhibit. Reston. VA, United States : AIAA ,2000 : 1560-1 - 1560-12.
5Davidson J B, Lallman F J, Bundick W T. Real-time adaptive control allocation applied to a high performance aircraft [ C ]// 5th SIAM Conference on Control & Its Applications. United States: NASA Langley Technical Report Server, 2001:1211 - 1229.
6Liu C S, Li C T, He Z. Adaptive control of a morphing aircraft through updating the number of actuators [ C ]// AIAA Guid- ance, Navigation, and Control Conference. Reston, VA, United States : AIAA ,2012:4446-1 - 4446-9.
7Gang T, Chen S H, Fei J T, et al. An adaptive actuator failure compensation scheme for controlling a morphing aircraft model [ C ]//Proceedings of the 42nd IEEE Conference and Decision and Control. Maui, HI, United States: IEEE, 2003,5 : 4926 - 4931.
8Ataei-Esfahani A, Wang Q. Robust failure compensation for a morphing aircraft model using a probabilistic approach [ J ]. IEEE Transactions on Control Systems Technology, 2007, 15(2) :324 -331.
9Michael A B, David B D. Nonlinear control allocation using piecewise linear functions [ J]. Journal of Guidance Control and Dynamics, 2004,27 ( 6 ) : 1017 - 1027.
10LIU C S, ZHU X Z, JIANG B. Fault tolerant control based on adaptive control allocation with a muhiple effectors air- craft application [ C ]//American Control Conference (ACC), 2012:2533-2538.

引证文献6

1江未来,董朝阳,王通,王青.基于控制分配的一类变体飞行器容错控制[J].北京航空航天大学学报,2014,40(3):355-359. 被引量：4
2王晓霞,刘春生,姚烯.基于粒子群优化的多操纵面飞行器的重构控制[J].电光与控制,2014,21(5):68-72. 被引量：6
3董朝阳,路遥,江未来,王青.基于布谷鸟搜索算法的一类变体飞行器容错控制[J].航空学报,2015,36(6):2047-2054. 被引量：8
4蔡光斌,毛定坤,杨芊,李欣,侯明哲.基于SDRE的变体飞行器LPV稳定控制[J].系统工程与电子技术,2023,45(12):4013-4020.
5Muhammed S.PARANCHEERIVILAKKATHIL,Jafar S.PILAKKADAN,Rafic M.AJAJ,Mohammadreza AMOOZGAR,Davood ASADI,Yahya ZWEIRI,Michael I.FRISWELL.A review of control strategies used for morphing aircraft applications[J].Chinese Journal of Aeronautics,2024,37(4):436-463. 被引量：1
6杨志鹏,陈子浩,曾长,林松,毛金娣,张凯.复杂环境下的飞行器在线航路规划决策方法[J].系统工程与电子技术,2024,46(9):3166-3175.

二级引证文献16

1董朝阳,路遥,江未来,王青.基于布谷鸟搜索算法的一类变体飞行器容错控制[J].航空学报,2015,36(6):2047-2054. 被引量：8
2杨胜培,李仲阳,陈中样.基于混沌搜索与种群交叉的粒子群优化算法[J].计算机仿真,2016,33(6):218-222. 被引量：9
3章鸿翔,薛雅丽,王佳辉.推力矢量飞行器动态控制分配方法研究[J].电光与控制,2016,23(12):71-76. 被引量：7
4刘璟龙,胡陟,章卫国,许李伟,何启志.基于模型预测及控制分配的阵风缓和研究[J].西北工业大学学报,2017,35(2):259-266. 被引量：3
5李盼池,杨淑云,刘显德,潘俊辉,肖红,曹茂俊.量子衍生布谷鸟搜索算法[J].计算机系统应用,2017,26(9):122-127. 被引量：1
6龚春林,赤丰华,谷良贤,方海.基于Karhunen-Loève展开的分布式变体飞行器最优控制方法[J].航空学报,2018,39(2):83-96. 被引量：6
7储培,倪昆,程林,张庆振.基于反步滑模的高超声速变体飞行器鲁棒控制[J].计算机仿真,2018,35(8):41-45. 被引量：9
8路遥,董朝阳,王青,刘扬.存在整数约束的分布式驱动变体飞行器控制分配[J].控制理论与应用,2018,35(8):1083-1091. 被引量：4
9吴一全,周建伟.布谷鸟搜索算法研究及其应用进展[J].智能系统学报,2020,15(3):435-444. 被引量：13
10刘亮,陶呈纲,薛艺璇,甄子洋,曹红波.基于增量动态逆的V/STOL飞机悬停段控制[J].飞行力学,2022,40(4):27-33. 被引量：1

1ZHANG Wen-An YU Li.A Robust Control Approach to Stabilization of Networked Control Systems with Short Time-varying Delays[J].自动化学报,2010,36(1):87-91. 被引量：14
2《微型计算机》强烈推荐——CPU-Alteration v1.2beta[J].微型计算机,2004(7):127-127.
3吴敏.μ Synthesis Method for Robust Control of Uncertain Nonlinear Systems[J].High Technology Letters,2000,6(4):1-6.
4DUAN Guang-Ren,ZHANG Biao.Robust Control System Design Using Proportional Plus Partial Derivative State Feedback[J].自动化学报,2007,33(5):506-510. 被引量：4
5陈丽平,郭鑫.最小能耗优化云模型中的动态图挖掘方法[J].计算机工程,2015,41(8):23-31. 被引量：4
6夏颖,张婷,吴晓方.OFDM系统的自适应分配算法的研究[J].齐齐哈尔大学学报（自然科学版）,2009,25(4):40-40.
7ZHEN Sheng-Chao,ZHAO Han,CHEN Ye-Hwa,HUANG Kang.A New Lyapunov Based Robust Control for Uncertain Mechanical Systems[J].自动化学报,2014,40(5):875-882. 被引量：3
8Hui-jiao WANG,Xiao-dong ZHAO,An-ke XUE,Ren-quan LU.Delay-dependent robust control for uncertain discrete singular systems with time-varying delay[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2008,9(8):1034-1042. 被引量：2
9蔡秀珊,韩正之,吕干云.Stabilization of nonlinear systems based on robust control Lyapunov function[J].Journal of Harbin Institute of Technology(New Series),2007,14(1):130-133.
10方勃,吴瑶华,黄文虎.Robust control of spacecraft variable structures during approach for docking[J].Journal of Harbin Institute of Technology(New Series),2000,7(2):20-23.

Journal of Systems Engineering and Electronics

2013年第2期

浏览历史

内容加载中请稍等...

Novel robust control framework for morphing aircraft 被引量：6

参考文献19

同被引文献62

引证文献6

二级引证文献16

相关作者

相关机构

相关主题

浏览历史