文章摘要
Liu Fucai (刘福才)*,Zhao Wenna*,Meng Lingcong*,Liu Shuo**.[J].高技术通讯(英文),2021,27(4):454~462
A switching-based backstepping sliding mode control for space manipulator in presence of gravity variation
  
DOI:10.3772/j.issn.1006-6748.2021.04.015
中文关键词: 
英文关键词: space manipulator, microgravity, switching system, multi-Lyapunov functions, backstepping sliding mode control (BSMC)
基金项目:
Author NameAffiliation
Liu Fucai (刘福才)* (*Key Laboratory of Industrial Computer Control Engineering of Hebei Province,Yanshan University,Qinhuangdao 066004, P.R.China) (**Engineering Department, University of Sheffield, Sheffield, UK) 
Zhao Wenna* (*Key Laboratory of Industrial Computer Control Engineering of Hebei Province,Yanshan University,Qinhuangdao 066004, P.R.China) (**Engineering Department, University of Sheffield, Sheffield, UK) 
Meng Lingcong* (*Key Laboratory of Industrial Computer Control Engineering of Hebei Province,Yanshan University,Qinhuangdao 066004, P.R.China) (**Engineering Department, University of Sheffield, Sheffield, UK) 
Liu Shuo** (*Key Laboratory of Industrial Computer Control Engineering of Hebei Province,Yanshan University,Qinhuangdao 066004, P.R.China) (**Engineering Department, University of Sheffield, Sheffield, UK) 
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中文摘要:
      
英文摘要:
      A novel switching-based backstepping sliding mode control (SBSMC) scheme is devised for the space manipulator exposed to different gravity. With a view to distinct differences in dynamics properties when the operating condition of space manipulator changes, the space manipulator can be thought of as a system composed of two subsystems, the ground subsystem and the space subsystem. Two different types of backstepping sliding mode (BSM) controllers are designed, one is suited for the ground subsystem and the other is for the space one. The switching between two subsystems can be implemented automatically when the switching mechanism is triggered, and the controllers for their subsystems experience synchronous switching. In this way, the space manipulator always has good behaviors in trajectory tracking. Moreover, multi-Lyapunov functions are introduced to prove the stability of this switching approach. According to simulation results, the method constructed in this research has better performance in control precision and adaptability compared with proportional-derivative (PD) control.
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