基于PICS和幅值优化的振荡系统抗扰闭环控制设计

2015 International Conference on Trends in Automation, Communications and Computing Technology (I-TACT-15) Pub Date : 2015-12-01 DOI:10.1109/ITACT.2015.7492690

S. Sondur, Bhanumati Bandi

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引用次数: 0

摘要

在实际应用中，人们发现控制振荡系统有相对的问题，因为这种类型的系统通常需要小的超调和最小的给定输入的稳定响应时间。现有的DRMO方法在抑制振荡系统中的干扰方面表现出较差的响应，因为在振荡系统中，即使是最小的干扰输入也会引起振荡，并可能降低系统的响应并影响瞬态参数。在我们的工作中，我们提出了振荡过程的干扰抑制，其中提出了PICS和幅度最优准则的概念。针对PICS的优点，我们提出了基于PICS的轻阻尼振荡系统DRMO。在几个基准算例上进行了仿真，并与现有的DRMO方法进行了比较。

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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Design of closed loop control for disturbance rejection in oscillatory system based on PICS and Magnitude Optimum

In practical applications, it is found that controlling oscillatory systems have relative problems as this type of systems often requires small overshoot and the smallest settling response time on a given input. The existing DRMO method has shown poor response in rejection of disturbances in oscillatory systems as, in such systems, even the smallest disturbance input can cause oscillations and may degrade the system response and also affect the transient parameters. In our work, we propose, the disturbance rejection on oscillatory processes in which the concept of PICS and Magnitude Optimum criteria is presented. Looking into the advantages of PICS, we propose PICS based DRMO for the lightly damped oscillatory systems. Simulations on several benchmark examples are done and the results are compared with the existing DRMO method.

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2015 International Conference on Trends in Automation, Communications and Computing Technology (I-TACT-15)

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