Neural network-based correction and interpolation of encoder signals for precision motion control

The 8th IEEE International Workshop on Advanced Motion Control, 2004. AMC '04. Pub Date : 2004-03-25 DOI:10.1109/AMC.2004.1297919
K. Tang, K. Tan, Tong-heng Lee, C. Teo
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引用次数: 7

Abstract

Precision control is the core of many applications in the industry, particularly robotics and drive control. To achieve it, precise measurement of the signals generated by incremental encoder sensors is essential. High precision and resolution motion control relies critically on the precision and resolution achievable from the encoders. In this paper, a dynamic neural network-based approach for the correction and interpolation of quadrature encoder signals is developed. In this work, the radial basis functions (RBF) neural network is employed to carry out concurrently the correction and interpolation of encoder signals in realtime. The effectiveness of the proposed approach is verified in the simulation results provided.
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基于神经网络的精确运动控制编码器信号校正与插值
精密控制是工业中许多应用的核心,特别是机器人和驱动控制。为了实现它,精确测量增量编码器传感器产生的信号是必不可少的。高精度和高分辨率的运动控制主要依赖于编码器的精度和分辨率。本文提出了一种基于动态神经网络的正交编码器信号校正与插值方法。采用径向基函数(RBF)神经网络对编码器信号进行实时同步校正和插值。仿真结果验证了该方法的有效性。
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The 8th IEEE International Workshop on Advanced Motion Control, 2004. AMC '04.
The 8th IEEE International Workshop on Advanced Motion Control, 2004. AMC '04.
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