微电网
网络数据包
计算机网络
电流(流体)
计算机科学
权力分享
事件(粒子物理)
控制(管理)
功率(物理)
电气工程
工程类
量子力学
物理
人工智能
作者
Guoxiu Jing,Bonan Huang,Xiangpeng Xie,Qianxiang Shen,Qiuye Sun
标识
DOI:10.1109/tii.2024.3485725
摘要
To achieve stable operation and current sharing in dc microgrids with communication networks of random packet losses, this article proposes a distributed event-triggered control (ETC) strategy based on data sampling mechanism and combined measurement. The proposed ETC consensus protocol achieves mean-square consensus of the distributed renewable power generation units (RGUs) by coupling the sampling interval, control gain, and packet loss probability. Moreover, the independent triggering of individual RGUs reduces communication burden during the control process and lowers the update frequency of converters. The proposed ETC strategy has the advantages of having fewer parameters, utilizing periodic data sampling mechanisms, avoiding the Zeno phenomenon in the control system and continuously monitoring the system state. Finally, detailed experimental tests are presented to demonstrate that the proposed distributed ETC strategy exhibits good capabilities in current sharing and robustness against random packet loss.
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