Two-stage multirate state feedback control designs for systems with slow and fast eigenvalue modes

IF 1.7 4区 计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS
R. Munje, B. Patre
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引用次数: 0

Abstract

Design of feedback control, for a system with slow and fast eigenvalue modes, using single sampling rate results in either information loss (for a larger sampling period) or increased computations (for a smaller sampling period). This paper contributes to designing multirate state feedback controllers for such systems. In this, it is shown that the feedback control for a linear time-invariant system, having slow and fast eigenvalue modes, can be successfully designed by multirate sampling of states in two stages. Multirate sampling refers to sampling slow- and fast-varying states at different rates, that is sampling slow states at a lower rate than the fast states. Here, two approaches for multirate sampling of states are presented, depending on the sampling sequence. In the first approach, fast subsystem states are sampled initially, and then, slow subsystem states are sampled, whereas in the second approach, slow subsystem states are sampled before sampling the fast subsystem states. As far as the two-stage design is concerned, the first stage of the design of feedback control is initiated just after sampling the first subsystem. Then, the left subsystem is sampled, and the second stage of the design of feedback control is accomplished. It is proved that the feedback controls derived with the multirate sampling of states stabilize the full-order system in both approaches. The design and implementation aspects of both approaches are compared. Finally, the applicability of the proposed control is demonstrated by simulating two examples. Simulations are also compared with other methods proposed in the literature.
慢速和快速特征模态系统的两阶段多速率状态反馈控制设计
对于具有慢速和快速特征值模式的系统,使用单一采样率的反馈控制设计会导致信息丢失(对于较大的采样周期)或计算增加(对于较小的采样周期而言)。本文有助于设计此类系统的多速率状态反馈控制器。研究表明,对于具有慢速和快速特征值模式的线性时不变系统,通过两阶段的多速率状态采样可以成功地设计反馈控制。多速率采样是指以不同的速率对慢速和快速变化的状态进行采样,也就是说,以比快速状态更低的速率对低速状态进行采样。这里,根据采样序列,提出了两种状态多速率采样的方法。在第一种方法中,首先对快子系统状态进行采样,然后对慢子系统状态采样,而在第二种方法中在对快个子系统状态采样之前对慢子子系统状态取样。就两阶段设计而言,反馈控制设计的第一阶段是在对第一个子系统进行采样之后开始的。然后,对左侧子系统进行采样,完成了反馈控制设计的第二阶段。证明了在这两种方法中,由多速率状态采样导出的反馈控制都能稳定全阶系统。比较了两种方法的设计和实现方面。最后,通过对两个实例的仿真,验证了该控制方法的适用性。仿真还与文献中提出的其他方法进行了比较。
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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来源期刊
CiteScore
4.10
自引率
16.70%
发文量
203
审稿时长
3.4 months
期刊介绍: Transactions of the Institute of Measurement and Control is a fully peer-reviewed international journal. The journal covers all areas of applications in instrumentation and control. Its scope encompasses cutting-edge research and development, education and industrial applications.
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