Event-Triggered Time Synchronization Strategy for Distributed Secondary Control Considering Time-Varying Delays

Guannan Lou; Yinqiu Hong; Wei Gu; Jihua Xie

doi:10.17775/CSEEJPES.2021.05640

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Event-Triggered Time Synchronization Strategy for Distributed Secondary Control Considering Time-Varying Delays

更新时间：2026-02-06

- Event-Triggered Time Synchronization Strategy for Distributed Secondary Control Considering Time-Varying Delays
- CSEE Journal of Power and Energy Systems Vol. 11, Issue 3, Pages: 1118-1130(2025)
- 作者机构：
  
  1. School of Electrical Engineering, Southeast University,Jiangsu,Nanjing,China
  2. Jiangsu Provincial Key Laboratory of Smart Grid Technology and Equipment, Southeast University
- 作者简介：
- 基金信息：
- DOI：10.17775/CSEEJPES.2021.05640
  CLC：
- Published：2025
- 稿件说明：
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Guannan Lou, Yinqiu Hong, Wei Gu, et al. Event-Triggered Time Synchronization Strategy for Distributed Secondary Control Considering Time-Varying Delays[J]. CSEE Journal of Power and Energy Systems, 2025, 11(3): 1118-1130.
DOI：

Guannan Lou, Yinqiu Hong, Wei Gu, et al. Event-Triggered Time Synchronization Strategy for Distributed Secondary Control Considering Time-Varying Delays[J]. CSEE Journal of Power and Energy Systems, 2025, 11(3): 1118-1130. DOI： 10.17775/CSEEJPES.2021.05640.

摘要

Abstract

Synchronous information interaction is the basis for guaranting the effectiveness of distributed consensus control

which is crucial for realizing the cooperative control of micro-grids. In the absence of a centralized clock for global signal synchronization

each distributed generation (DG) is equipped with its own clock and is independently allowed to execute actions

which is more practical in distributed control; whereas asynchronous information exchange may occur in this case and could degrade the system performance. To address this problem

this paper proposes a distributed time synchronization strategy. First

the asynchronous distributed consensus control is formulated and the time-varying latency during time message transmission is analyzed in detail

which is similar to that in state delivery and would challenge the precision of clock synchronization. Then

an event-triggered time synchronization strategy which is capable to cope with the asynchronous behaviors of various DGs in the face of a delayed message is introduced with the trigger frequency remarkably reduced and the control accuracy as well as stability significantly improved

which is overlooked in most of the state-of-art literature. Furthermore

the design of the event triggering mechanism is discussed to reach a tradeoff between control actions and synchronization precision. Simulation tests are conducted to verify the effectiveness of the proposed methodology.

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