Novel Tuning Rules of PD Controller for Industrial Processes

2019 8th Mediterranean Conference on Embedded Computing (MECO) Pub Date : 2019-06-01 DOI:10.1109/MECO.2019.8760157

Marko Č. Bošković, M. Rapaić, T. Šekara, M. Ponjavic, M. Barjaktarović, B. Lutovac

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Abstract

The paper presents a simple and an efficient design method of Proportional-Derivative (PD) controller. This type of controllers has been extensively used in industry e.g. to eliminate position error at robotic manipulators and other mechatronic systems. Analytical tuning formulas of PD controller for typical representatives of industrial processes in terms of a single tuning parameter ${\lambda}$ have been derived. The desired performance and robustness indices of the closed-loop system are achieved by suitable selection of the adjustable parameter ${\lambda}$. The PD controller and feed-forward filter are primarily designed to achieve step reference response with negligible overshoot and good response speed, while maximum of the sensitivity function, ${M}_{\mathrm{s}}$, and maximum of the complementary sensitivity functions, ${M}_{\mathrm{p}}$, are used as robustness indices, simultaneously considering maximum, ${M}_{\mathrm{n}}$, of the sensitivity to measurement noise. The effectiveness of the proposed design procedure is verified via numerical simulations on twelve representatives of typical industrial processes: stable, integral and unstable with and without transport delay.

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一种新的工业过程PD控制器整定规则

本文提出了一种简单有效的比例导数控制器设计方法。这种类型的控制器已广泛应用于工业中，例如消除机器人机械手和其他机电系统的位置误差。推导了典型工业过程的PD控制器的单参数解析整定公式。通过合理选择可调参数${\lambda}$，实现了闭环系统的理想性能和鲁棒性指标。PD控制器和前馈滤波器的设计主要是为了实现可忽略超调和良好响应速度的阶跃参考响应，而灵敏度函数的最大值${M}_{\mathrm{s}}$和互补灵敏度函数的最大值${M}_{\mathrm{p}}$作为鲁棒性指标，同时考虑测量噪声灵敏度的最大值${M}_{\mathrm{n}}$。通过对12个典型工业过程的数值模拟，验证了所提出的设计程序的有效性:稳定、整体和不稳定，有和没有传输延迟。

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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来源期刊

2019 8th Mediterranean Conference on Embedded Computing (MECO)

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