CMAC neural network control for high precision motion control in the presence of large friction

G. A. Larsen; S. Cetinkunt; A. Donmez

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CMAC neural network control for high precision motion control in the presence of large friction

机译：CMAC神经网络控制可在大摩擦力下实现高精度运动控制

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Precision requirements in ultra-precision machining are often given in the order of micrometers or sub-micrometers. Machining at these levels requires precise control of the position and speed of the machine tool axes. Furthermore, in machining of brittle materials, extremely low feed rates of the machine tool axes are required. At these low feed rates there is a large and erratic friction characteristic in the drive system which standard PID controllers are unable to deal with. In order to achieve the desired accuracies, friction must be accurately compensated in the real-time servo control algorithm. A learning controller based on the CMAC algorithm is studied for this task.

机译：在超精密加工中的精度要求通常以微米或亚微米的数量级给出。在这些级别上进行加工需要精确控制机床轴的位置和速度。此外，在加工脆性材料时，要求机床轴的进给速度非常低。在如此低的进给速度下，驱动系统中的摩擦特性较大且不稳定，这是标准PID控制器无法处理的。为了获得所需的精度，必须在实时伺服控制算法中准确补偿摩擦。为此，研究了基于CMAC算法的学习控制器。

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《Journal of Dynamic Systems, Measurement, and Control》 |1995年第3期|共6页
作者
G. A. Larsen; S. Cetinkunt; A. Donmez;
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1. CMAC neural network control for high precision motion control in the presence of large friction [J] . G. A. Larsen, S. Cetinkunt, A. Donmez Journal of Dynamic Systems, Measurement, and Control . 1995,第3期

机译：CMAC神经网络控制可在大摩擦力下实现高精度运动控制
2. Adaptive Force/Motion Control System Based on Recurrent Fuzzy Wavelet CMAC Neural Networks for Condenser Cleaning Crawler-Type Mobile Manipulator Robot [J] . Mai T., Wang Y. Control Systems Technology, IEEE Transactions on . 2014,第5期

机译：基于递归模糊小波CMAC神经网络的冷凝器清洁履带式移动机械手机器人自适应力/运动控制系统。
3. Adaptive-backstepping force/motion control for mobile-manipulator robot based on fuzzy CMAC neural networks [J] . Thang-Long MAI, Yaonan WANG 控制理论与应用（英文版） . 2014,第004期

机译：基于模糊CMAC神经网络的移动机械臂自适应反推力/运动控制
4. CMAC NEURAL NETWORK CONTROL FOR HIGH PRECISION MOTION OF HYBRID ACTUATOR [C] . Zhang Ke, Wang Shengze, American Society of Mechanical Engineers(ASME) ASME International Design Engineering Technical Conference . 2005

机译：混合动力执行器高精度运动CMAC神经网络控制
5. Using a cerebellar model arithmetic computer (CMAC) neural network to control an autonomous underwater vehicle. [D] . Comoglio, Rick F. 1991

机译：使用小脑模型算术计算机（CMAC）神经网络控制自主水下航行器。
6. Friction Compensation Control of Electromechanical Actuator Based on Neural Network Adaptive Sliding Mode [O] . Wei Ruan, Quanlin Dong, Xiaoyue Zhang, 2021

机译：基于神经网络自适应滑模的机电执行器的摩擦补偿控制
7. A recurrent emotional CMAC neural network controller for vision-based mobile robots [O] . Wubing Fang, Fei Chao, Longzhi Yang, 2019

机译：基于视觉的移动机器人的经常性情绪CMAC神经网络控制器
8. Parametric motion control of robotic arms: A biologically based approach using neural networks [R] . Bock, O., D'Eleuterio, G. M. T., Lipitkas, J., 1993

机译：机器人手臂的参数运动控制：使用神经网络的基于生物学的方法

CMAC neural network control for high precision motion control in the presence of large friction

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