Neural-Network-Based Low-Speed-Damping Controller for Stepper Motor With an FPGA

Le Q. N.; Jeon J.-W.

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Neural-Network-Based Low-Speed-Damping Controller for Stepper Motor With an FPGA

机译：基于神经网络的带FPGA的步进电机低速阻尼控制器

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We present a low-speed-damping controller for a stepper motor using artificial neural networks (ANNs). This controller is designed to remove nonlinear disturbance at low speeds. The proposed controller improves the stepper motor performance at less than the resonance speed of the stepper motor system. Due to its ability to learn, the proposed controller can adapt to different resonant speed ranges without any identification process for system parameters. Conversely, we also introduce the implementation of an ANN-based controller, online backpropagation learning, and a microstep driver on a single field-programmable gate array. An implementation and experimental results are conducted to verify the feasibility and the effectiveness of the proposed controller.

机译：我们提出了一种使用人工神经网络（ANN）的步进电机低速阻尼控制器。该控制器旨在消除低速时的非线性干扰。所提出的控制器以小于步进电动机系统的共振速度的方式改善了步进电动机的性能。由于具有学习能力，因此所提出的控制器可以适应不同的谐振速度范围，而无需对系统参数进行任何识别过程。相反，我们还介绍了在单个现场可编程门阵列上基于ANN的控制器，在线反向传播学习和微步驱动器的实现。进行了实施和实验结果，以验证所提出控制器的可行性和有效性。

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来源
《Industrial Electronics, IEEE Transactions on》 |2010年第9期|p.3167-3180|共14页
作者
Le Q. N.; Jeon J.-W.;
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作者单位

School of Information and Communication Engineering, The Sungkyunkwan University, Suwon, Korea;

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原文格式 PDF
正文语种 eng
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关键词
Lyapunov function; neural network (NN); resonant speed; stepper motor;

机译：李雅普诺夫函数神经网络共振速度步进电机;

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Neural-Network-Based Low-Speed-Damping Controller for Stepper Motor With an FPGA

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