利用辅助二叉方程消除生物反应器过程的稳态误差 - 案例研究

International Research Journal on Advanced Engineering Hub (IRJAEH) Pub Date : 2024-07-10 DOI:10.47392/irjaeh.2024.0263

Sundari.I, Sivakumar.S, Suguna.S, Kathiravan.A

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摘要

RST（调节、灵敏度和跟踪）控制器在电气工程应用中使用非常广泛。该控制器具有前馈和反馈两种功能。PID 和内部模型控制器 (IMC) 设计主要在设定点跟踪方面非常有效，但在干扰抑制方面较差，不过，干扰抑制可以以降低稳定性裕度为代价。该控制器基于一个二叉方程的解析。使用 MATLAB 为生物反应器开发了一个数学模型。一旦已知过程的离散模型并选择了闭环系统的模型传递函数，就可以通过引入辅助 Diophantine 方程来解决任何阶次的多项式参考信号的稳态误差消除问题。结果与基于极点分配法的 PID 控制器进行了比较。

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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Cancellation of Steady State Error Using Auxiliary Diophantine Equation for a Bio-Reactor Process -A case study

RST (Regulation, Sensitivity and Tracking) controller is very widely used in electrical engineering application. The controller provides both feed-forward and feedback actions. PID, Internal Model Controller (IMC) designs are mainly very effective in set point tracking but poor in disturbance rejection, however, the disturbance rejection can be obtained at the cost of reduced stability margins. The controller is based on the resolution of a Diophantine equation. A mathematical Model for Bioreactor was developed using MATLAB. Once the discrete model of the process is known and a model transfer function for the closed loop system has been chosen, the cancellation of steady state errors in response to reference signals has been solved for polynomial reference signals of any order by the introduction of an auxiliary Diophantine equation. The results are compared with the PID controller based on pole assignment method.

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International Research Journal on Advanced Engineering Hub (IRJAEH)

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