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考虑执行机构误差的编队卫星姿态分布式时延滑模自适应协同控制 被引量:5

Decentralized Time-delay Adaptive Sliding Mode Control for Attitude Coordination of Satellite Formation Under Actuator Misalignment
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摘要 针对编队卫星姿态协同控制问题,在考虑到执行机构误差的前提下,提出一种将时延控制与滑模自适应控制相结合的鲁棒控制方法。该方法通过引入自适应更新律实现对执行机构小角度安装误差的在线估计,同时通过滑模控制完成对外界干扰和执行机构随机幅值误差等随机扰动的抑制。由于引入了时延环节,只需对上一时刻控制力矩进行单位时延,达到大大简化控制器设计复杂度的目的。基于Lyapunov稳定性理论,证明了闭环系统的稳定性。最后,通过数值仿真对提出的控制方法进行了验证,仿真结果表明该方法能够有效抑制外部干扰和执行机构随机幅值误差的影响,对执行机构安装误差的自适应在线估计能够快速稳定收敛,鲁棒性强,且具有良好的过渡过程品质。 This paper develops an adaptive sliding mode attitude control system combined with time-delay control for the attitude coordination of satellite formation, especially when there exists the misalignment and magnitude error of active actuators. An adaptive update algorithm is presented to estimate the misalignment of actuators online, while the external disturbances together with random magnitude errors of an actuator are attenuated by the sliding mode controller. In addition, due to the introduction of the time-delay element, which just delays the last instantaneous control torque for a unit time, the com- plexity of controller design is greatly reduced. The stability of the closed-loop system is also proved based on the Lyapunov theory. Finally, the effectiveness of the corresponding controller is studied through numerical simulation. The results demonstrate that the external disturbance and random magnitude error can be attenuated by choosing appropriate control parameters, and the adaptive update algorithm can converge in a short time as well.
作者 吕跃勇 胡庆雷 马广富 周稼康
机构地区 哈尔滨工业大学控制科学与工程系
出处 《航空学报》 EI CAS CSCD 北大核心 2011年第9期1686-1695,共10页 Acta Aeronautica et Astronautica Sinica
基金 国家自然科学基金(61004072) 高等学校博士学科点专项科研基金(20102302110031) 黑龙江省留学回国人员科学基金(LC08C01) 哈尔滨市科技创新人才研究专项基金(2010RFLXG001) 中央高校基本科研业务专项基金(HIT.KLOF.2010016)~~
关键词 卫星编队 姿态协同 安装误差 滑模控制 时延控制 自适应 satellite formation attitude coordination m isalignment sliding mode control time-delay control adaptivity
分类号 V448.2 [航空宇航科学与技术—飞行器设计]
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二级参考文献23

  • 1Blanke M,Kinnaert M,Lunze J,et al.Diagnosis and fault-tolerant control[M].Berlin:Springer,2003.
  • 2Boskovie J D,Li S M,Mehra R K.Intelligent control of spacecraft in the presence of actuator failures[C] //Proceedings of the 38th IEEE Conference on Decision and Control.1999:4472-4477.
  • 3Li L,Ma L Y,Khorasani K.A dynamic recurrent neural network fault diagnosis and isolation architecture for satellite's actuator/thruster failures[J].Lecture Notes in Computer Science,2005,3498(3):574-583.
  • 4Chen W,Saif M.Observer-based fault diagnosis of satellite systems subject to time-varying thruster faults[J].Journal of Dynamic Systems,Measurement,and Control,2007,129(3):352-356.
  • 5Wu Q,Saif M.Robust fault diagnosis for a satellite large angle attitude system using an iterative neuron PID observer[C] //Proceedings of the American Control Conference.2006:5710-5715.
  • 6Jin J H,Ko S H,Ryoo C K.Fault tolerant control for satellites with four reaction wheels[J].Control Engineering Practice,2008,16(10):1250-1258.
  • 7Cai W C,Xiao X L,Song Y D.Indirect robust adaptive fault-tolerant control for attitude tracking of spacecraft[J].Journal of Guidance,Control,and Dynamics,2008,31(5):1456-1463.
  • 8Hu Q L,Shi P,Gao H J.Adaptive variable structure and commanding shaped vibration control of flexible spacecraft[J].Journal of Guidance,Control,and Dynamics,2007,30(3):804-815.
  • 9Hu Q L,Ma G F.Adaptive variable structure controller for spacecraft vibration reduction[J].IEEE Transactions on Aerospace and Electronic Systems,2008,44(3):861-876.
  • 10Vadali S R.Variable-structure control of spacecraft largeangle maneuvers[J].Journal of Guidance,Control,and Dynamics,1986,9(2):235-239.

共引文献30

同被引文献26

  • 1康宇,奚宏生,季海波.有限时间快速收敛滑模变结构控制[J].控制理论与应用,2004,21(4):623-626. 被引量:24
  • 2罗晓利.1990~2003年中国民航152起小于间隔飞行事件的分类统计研究[J].中国安全科学学报,2004,14(12):26-32. 被引量:46
  • 3BOSKOVIC J D, LI S M, MEHRA R K. Robust tracking control design for spacecraft under control input saturation[J]. Journal of Guidance, Control,and Dynamics, 2004, 27(4): 627-633.
  • 4WALLSGROVE R J, AKELLA M R. Globally sta- bilizing saturated attitude control in the presence of bounded unknown disturbances[J]. Journal of Guid- ance, Control, and Dynamics, 2005, 28(5): 957- 963.
  • 5WIE B, BAILEY D, HEIBERG C. Rapid multitarget acquisition and pointing control of agile spacecraft [J]. Journal of Guidance, Control, and Dynamics, 2002, 25(1).. 96-104.
  • 6HU Q, XIAO B, FRISWELL M I. Robust fault-tol- erant control for spacecraft attitude stabilisation sub- ject to input saturation[J]. Control Theory & Applications, IET, 2011, 5(2): 271-282.
  • 7DIXON W E, De QUEIROZ M S, ZHANG F.Tracking control of robot manipulators with boundedtorque inputs[J]. Robotica, 1999,17(2): 121-129.
  • 8CAI W,LIAO X,SONG D Y. Indirect robust adap-tive fault-tolerant control for attitude tracking ofspacecraft[J]. Journal of Guidance,Control, and Dy-namics, 2008,31(5) : 1456-1463.
  • 9ALI I,RADICE G,KIM J. Backstepping control de-sign with actuator torque bound for spacecraft atti-tude maneuverQJ. Journal of Guidance, Control, andDynamics, 2010,33(1) : 254-259.
  • 10MERCKER T H,AKELLA M R. Adaptive estima-tion and control algorithms for certain independentcontrol axis misalignments [J]. Journal of Guidance,Control,and Dynamics, 2014,37(1) : 72-85.

引证文献5

二级引证文献15

航空学报
2011年 第9期

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