Frequency response of discrete-time robot systems--Limitations of PD controllers and improvements by lag-lead compensation

Proceedings. 1987 IEEE International Conference on Robotics and Automation Pub Date : 1987-03-01 DOI:10.1109/ROBOT.1987.1087985

Yilong Chen

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引用次数: 16

Abstract

The feedback algorithm widely employed in the various current control strategies is a digital implementation of a conventional proportional plus derivative (PD) control. For dynamic control of robots, this algorithm can be shown to lead to unsatisfactory trade-offs between static accuracy, system stability, insensitivity to model structure inaccuracies and high frequency noise rejection. These trade-offs become even more serious as sampling rate decreases. To reduce these trade-offs, a more realistic discrete time system model of a robot arm and a more sophisticated feedback compensator are required. In this paper, a discrete time system model of a robot arm is derived and limitations of PD controllers are shown. They are consistent with our simulation and experimental results. Also a Lag-lead compensator is designed by a frequency-response analysis based on this model, along with the algorithm for realizing this compensator. Simulations and tests are conducted, which show encouraging results in reducing the trade-offs.

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离散时间机器人系统的频率响应——PD控制器的局限性和滞后补偿的改进

在各种电流控制策略中广泛采用的反馈算法是传统比例加导数(PD)控制的数字实现。对于机器人的动态控制，该算法在静态精度、系统稳定性、模型结构不准确性和高频噪声抑制之间的权衡不能令人满意。随着采样率的降低，这些权衡变得更加严重。为了减少这些权衡，需要一个更现实的机械臂离散时间系统模型和一个更复杂的反馈补偿器。本文建立了机械臂的离散时间系统模型，指出了PD控制器的局限性。它们与我们的模拟和实验结果一致。在此基础上，通过频率响应分析，设计了滞后超前补偿器，并给出了实现滞后超前补偿器的算法。进行了模拟和测试，在减少权衡方面显示出令人鼓舞的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings. 1987 IEEE International Conference on Robotics and Automation

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