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基于模糊强化学习的多柔性梁振动控制仿真
引用本文:邱志成,杜佳豪. 基于模糊强化学习的多柔性梁振动控制仿真[J]. 空间控制技术与应用, 2021, 47(1): 29-39. DOI: 10.3969/j.issn.1674-1579.2021.01.005
作者姓名:邱志成  杜佳豪
作者单位:华南理工大学机械与汽车工程学院,广东广州510641
摘    要:空间机械结构趋向大型化、复杂化、柔性化特点,容易导致残余振动,且残余振动频率低,振动时间长.针对多柔性梁耦合结构残余振动问题,通过有限元法建立了动力学模型,分析了振动特性,呈现密频特性,拍频特征.对于残余振动问题,结合模糊强化学习控制算法,构建模糊规则表,使用ε-贪婪法选择每条规则中的动作,进而生成最终的控制电压,与环...

关 键 词:多柔性梁  振动控制  有限元建模  模糊强化学习

Simulation of Multiple Flexible Beams Vibration Control Based on Fuzzy Reinforcement Learning
QIU Zhicheng,DU Jiahao. Simulation of Multiple Flexible Beams Vibration Control Based on Fuzzy Reinforcement Learning[J]. Aerospace Contrd and Application, 2021, 47(1): 29-39. DOI: 10.3969/j.issn.1674-1579.2021.01.005
Authors:QIU Zhicheng  DU Jiahao
Abstract:Space mechanical structures tend to be large scale, complex and flexible, which easily leads to residual vibration, and the frequency of residual vibration is low and the vibration time is long. Aiming at the residual vibration problem of multi flexible beams coupling structure, the dynamic model is established by finite element method, and the vibration characteristics are analyzed, showing the characteristics of dense frequency and beat frequency. For the residual vibration problem, combined with fuzzy reinforcement learning control algorithm, the fuzzy rule table is constructed. The action in each rule is selected by ε greedy method, and the control voltage is generated in the end. The feedback learning of state action value is carried out via temporal difference (TD) error. After training, the controller converges to a fuzzy control rule. The simulation results show that the fuzzy reinforcement learning controller can quickly suppress the residual vibration of multi flexible beams, and verify the effectiveness of the fuzzy reinforcement learning control algorithm.
Keywords:multi flexible beams   vibration control   finite element modeling   fuzzy reinforcement learning  
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