Digital output feedback event-based stabilization of nonlinear systems with state delays

IF 4.8 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

Automatica Pub Date : 2025-04-07 DOI:10.1016/j.automatica.2025.112311

Mario Di Ferdinando , Alessandro Borri , Stefano Di Gennaro , Pierdomenico Pepe

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引用次数: 0

Abstract

In this paper, the stabilization problem of nonlinear time-delay systems by means of digital dynamic output feedback event-triggered controllers is addressed. In particular, for the class of control-affine nonlinear systems with state delays, a methodology for the design of quantized sampled-data observer-based event-triggered (QSOE) stabilizers is provided. As a first step, the notion of Dynamic Output Steepest Descent Feedback (DOSDF), induced by a class of Lyapunov–Krasovskii functionals, is suitably revised in order to cope with the design of QSOE stabilizers. Then, the stabilization in the sample-and-hold sense theory is used as a tool to prove the existence of a suitably fast sampling and of an accurate quantization of the input/output channels such that: the digital implementation of DOSDFs, updated through a proposed event-based mechanism, ensures the semi-global practical stability property of the related closed-loop system with arbitrarily small final target ball of the origin. In the theory here developed, aperiodic sampling and the non-uniform quantization of the input/output channels are taken into account. Possible discontinuities in the functions describing the DOSDF at hand are also managed enlarging the possibilities to successfully designing QSOE stabilizers. Moreover, the proposed QSOE stabilizer is described by easily implementable difference equations avoiding the necessity to solve differential equations for the correct application of the controller at hand. Nonlinear delay-free systems are addressed as a special case. The proposed results are validated through practical examples concerning a Glucose-Insulin system and a Continuous Stirred Tank Reactor system.

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具有状态延迟的非线性系统的数字输出反馈事件镇定

本文研究了用数字动态输出反馈事件触发控制器控制非线性时滞系统的镇定问题。特别地，对于一类具有状态延迟的控制仿射非线性系统，提供了一种基于观测器的量化采样数据事件触发稳定器的设计方法。首先，对一类Lyapunov-Krasovskii泛函引起的动态输出最陡下降反馈（DOSDF）的概念进行了适当的修正，以适应QSOE稳定器的设计。然后，将采样保持理论中的稳定化作为一种工具来证明存在适当的快速采样和输入/输出通道的精确量化，从而：通过所提出的基于事件的机制更新的dosdf的数字实现确保了具有任意小的最终目标球的相关闭环系统的半全局实际稳定性。在这里开发的理论中，非周期采样和输入/输出通道的非均匀量化被考虑在内。在描述DOSDF的函数中可能出现的不连续也得到了管理，从而扩大了成功设计QSOE稳定器的可能性。此外，所提出的QSOE稳定器由易于实现的差分方程描述，避免了为正确应用控制器而求解微分方程的必要性。非线性无延迟系统是一种特殊情况。通过葡萄糖-胰岛素系统和连续搅拌槽式反应器系统的实例验证了上述结果。

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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来源期刊

Automatica 工程技术-工程：电子与电气

CiteScore

10.70

自引率

7.80%

发文量

617

审稿时长

5 months

期刊介绍： Automatica is a leading archival publication in the field of systems and control. The field encompasses today a broad set of areas and topics, and is thriving not only within itself but also in terms of its impact on other fields, such as communications, computers, biology, energy and economics. Since its inception in 1963, Automatica has kept abreast with the evolution of the field over the years, and has emerged as a leading publication driving the trends in the field. After being founded in 1963, Automatica became a journal of the International Federation of Automatic Control (IFAC) in 1969. It features a characteristic blend of theoretical and applied papers of archival, lasting value, reporting cutting edge research results by authors across the globe. It features articles in distinct categories, including regular, brief and survey papers, technical communiqués, correspondence items, as well as reviews on published books of interest to the readership. It occasionally publishes special issues on emerging new topics or established mature topics of interest to a broad audience. Automatica solicits original high-quality contributions in all the categories listed above, and in all areas of systems and control interpreted in a broad sense and evolving constantly. They may be submitted directly to a subject editor or to the Editor-in-Chief if not sure about the subject area. Editorial procedures in place assure careful, fair, and prompt handling of all submitted articles. Accepted papers appear in the journal in the shortest time feasible given production time constraints.