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H∞ Control for Switched Systems Based on Dynamic Event-Triggered Strategy and Quantization Under State-Dependent Switching
IEEE Transactions on Circuits and Systems I: Regular Papers ( IF 5.2 ) Pub Date : 2020-09-01 , DOI: 10.1109/tcsi.2020.2987926
Yajing Ma , Zhanjie Li , Jun Zhao

This paper is concerned with the $H_\infty $ control problem for switched systems under the event-triggered sampling, the quantization control and the state-dependent switching. The dynamic event-triggered strategy and the quantization control are utilized to adjust the signal transmission and relieve the transmission load. Different from the existing dynamic event-triggered strategies, the triggering condition only needs to be monitored at discrete time. Moreover, the state-dependent switching law is designed by using only the discrete state information. Under the event-triggered sampling, the quantization control and the state-dependent switching, sufficient conditions are proposed to guarantee the $H_\infty $ performance. A switched RLC system is utilized to verify the results in the simulation.

中文翻译:

状态相关切换下基于动态事件触发策略和量化的切换系统H∞控制

这篇论文是关于 $H_\infty $ 事件触发采样、量化控制和状态相关切换下的切换系统控制问题。利用动态事件触发策略和量化控制来调整信号传输,减轻传输负载。与现有的动态事件触发策略不同,触发条件只需要在离散时间进行监控。此外,状态相关的切换律是通过仅使用离散状态信息来设计的。在事件触发采样、量化控制和状态相关切换下,提出了充分条件来保证 $H_\infty $ 表现。切换 RLC 系统用于验证仿真结果。
更新日期:2020-09-01
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