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A backstepping design of adaptive robust learning controller for fast trajectory tracking of ball-beam dynamic systems

机译：快速轨迹跟踪自适应鲁棒学习控制器的反向触控设计

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This paper presents a robust learning controller for ball-beam dynamic systems. The error dynamics equations are derived for ball and beam dynamics respectively and compensated by a robust adaptive learning control input. In the learning controller, all the error signals, parameter error, tracking error and learning control input error are shown to be bounded and the tracking error converges to zero as the learning proceeds. Computer simulation results are given to demonstrate the feasibility and effectiveness of the proposed learning scheme.

机译：本文为球束动态系统提供了一种坚固的学习控制器。误差动态方程分别用于球和波束动力学，并通过鲁棒自适应学习控制输入来补偿。在学习控制器中，显示所有错误信号，参数错误，跟踪错误和学习控制输入错误被界定，并且随着学习的进行，跟踪误差会收敛到零。给出了计算机仿真结果，以证明所提出的学习计划的可行性和有效性。

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来源
《IEEE International Conference on Systems》|1996年||共4页
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Hyung-Kee Kim; Dong-Hoon Lee; Institute of Electric and Electronic Engineer;
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中图分类自动化技术、计算机技术;
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A backstepping design of adaptive robust learning controller for fast trajectory tracking of ball-beam dynamic systems

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