针对直接驱动的交流永磁直线伺服系统,提出一种基于神经元补偿控制的全程滑模变结构控制策略。
A global sliding model variable structure control scheme based on artificial neuron compensation for a direct drive AC permanent magnet linear servo system are presented in this paper.
在上述系统软、硬件平台确定以后,研究了基于PC机的直线交流伺服系统的具体实现方法。
This paper researched the realization of PC-based linear AC servo system after hardware and software platform are confirmed.
针对直接驱动直线式交流伺服系统,提出了一种基于模糊自学习的滑模变结构控制方案。
This paper presents a sliding mode variable structure control (SMVSC) method based on fuzzy self-learning for a direct-drive AC Lin ear servo system.
针对直接驱动的交流永磁直线伺服系统,提出一种基于神经元补偿控制的全程滑模变结构控制策略。
In this paper, a new variable structure control method, that is, Global variable structure control (GVSC), is introduced to aero engine control system.
针对直接驱动的交流永磁直线伺服系统 ,提出一种将非线性神经网络控制和滑模控制相结合构成的双自由度控制策略 。
The method of combining the state feedback of the modern control theory and the traditional PID to set up a double degree-of-freedom control system is presented.
针对直接驱动的交流永磁直线伺服系统 ,提出一种将非线性神经网络控制和滑模控制相结合构成的双自由度控制策略 。
The method of combining the state feedback of the modern control theory and the traditional PID to set up a double degree-of-freedom control system is presented.
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