不确定环境下多故障可重构机械手系统的抗饱和容错控制

2022 5th International Conference on Robotics, Control and Automation Engineering (RCAE) Pub Date : 2022-10-28 DOI:10.1109/RCAE56054.2022.9995833

Yadan Zhao, Tianhao Ma, Ziyao Song, Zhou Fan

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引用次数: 0

摘要

针对具有不确定环境的可重构机械臂，提出了一种基于自适应动态规划(ADP)的抗饱和容错控制方法。利用微分同胚理论对系统结构进行非线性变换，对系统的传感器故障进行非线性变换。设计自适应故障观测器实时检测执行器和传感器故障，将故障传感器信号替换为输出信号。利用双曲正切函数求解执行器饱和问题。然后，建立评价神经网络，利用在线策略迭代算法求解Hamilton-Jacobi-Bellman (HJB)方程，得到近似最优反馈控制器的值。利用李雅普诺夫稳定性定理来保证非线性系统的一致最终有界。最后，仿真结果验证了所提优化方案的有效性。

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Anti-saturation Fault-tolerant Control of Multi-fault Reconfigurable Manipulator System with Uncertain Environment

An anti-saturation fault-tolerant control method based on adaptive dynamic programming (ADP) was presented for the reconfigurable manipulator with uncertain environment. Differential homeomorphism theory is used to change the system structure of nonlinear transformation, and convert nonlinearly of sensor faults of the system. The adaptive fault observer is designed to real-time detection of actuator and sensor faults, and the fault sensor signal is replaced by the output signal. The hyperbolic tangent function is used to solve the actuator saturation problem. Then, an evaluation neural network (NN) is established, and the Hamilton-Jacobi-Bellman (HJB) equation is solved by online strategy iterative algorithm, then the value of approximate optimal feedback controller can be obtained. Using Lyapunov stability theorem to assure the uniformly and ultimately bounded (UUB) of the nonlinear system. Finally, the validity of the presented optimal FTC scheme is confirmed by simulation results.

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来源期刊

2022 5th International Conference on Robotics, Control and Automation Engineering (RCAE)

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