Parallel event-triggered dynamic output feedback control for nonlinear networked systems with randomly occurring multiple communication delays

IF 6.3 2区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS ISA transactions Pub Date : 2024-08-01 DOI:10.1016/j.isatra.2024.05.029
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Abstract

This paper investigates the issue of parallel event-triggered (PET) dynamic output feedback control for networked control systems (NCSs) built by the discrete-time T–S fuzzy model. Initially, a novel PET dynamic output feedback controller is designed. Based on saving network resources and enhancing transmission efficiency, the PET strategy makes full use of relative and absolute triggering condition information. And the dynamic output feedback control can not only address unmeasurable states but also provide a better response to the internal information of the system. The random multiple communication delays and the th-order Rice fading model with different channel coefficients, meanwhile, are both applied in the system. It is closer to the actual situation. Subsequently, new sufficient conditions of membership function dependence are proposed via the staircase function approximation method combined with Lyapunov stability. It guarantees that the system is exponentially mean square stable (EMSS) with H performance. Ultimately, the presented results are validated using two examples. In the future, we will explore the correlative research of T–S fuzzy Markov jump NCSs.

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具有随机发生的多重通信延迟的非线性网络系统的并行事件触发动态输出反馈控制
本文研究了由离散时间 T-S 模糊模型构建的网络化控制系统(NCS)的并行事件触发(PET)动态输出反馈控制问题。首先,设计了一种新型 PET 动态输出反馈控制器。基于节约网络资源和提高传输效率的考虑,PET 策略充分利用了相对和绝对触发条件信息。动态输出反馈控制不仅能解决不可测量的状态,还能更好地响应系统的内部信息。同时,系统中还采用了随机多重通信延迟和具有不同信道系数的ℓth-阶赖斯衰落模型。这更接近实际情况。随后,通过阶梯函数逼近法结合 Lyapunov 稳定性,提出了新的成员函数依赖性充分条件。它保证了系统具有指数均方稳定(EMSS)和 H∞ 性能。最终,我们用两个实例验证了所提出的结果。未来,我们将探索 T-S 模糊马尔可夫跃迁 NCS 的相关研究。
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来源期刊
ISA transactions
ISA transactions 工程技术-工程:综合
CiteScore
11.70
自引率
12.30%
发文量
824
审稿时长
4.4 months
期刊介绍: ISA Transactions serves as a platform for showcasing advancements in measurement and automation, catering to both industrial practitioners and applied researchers. It covers a wide array of topics within measurement, including sensors, signal processing, data analysis, and fault detection, supported by techniques such as artificial intelligence and communication systems. Automation topics encompass control strategies, modelling, system reliability, and maintenance, alongside optimization and human-machine interaction. The journal targets research and development professionals in control systems, process instrumentation, and automation from academia and industry.
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