Sage Journals: Discover world-class research

Abstract

Aiming at services such as nearby consumption and flexible interaction of new loads, it is necessary to achieve higher precision clock synchronization of local equipment, and the public network transmission delay fluctuates randomly, which cannot meet the corresponding accuracy requirements. In order to get rid of the limitations brought by public network transmission, distributed clock synchronization replaces the centralized timing of the master station through information exchange between nodes to achieve higher precision clock synchronization. However, in the process of distributed synchronization, a large amount of information will be exchanged between key nodes of the link and their neighbors, but the concurrent transmission capacity of key nodes such as dedicated power gateways and centralized coordinators (CCOs) is limited, which is difficult to meet the corresponding communication requirements. In order to solve the above problems, this paper proposes a time-triggered distributed synchronization scheme based on node priority, which can meet the requirements of high-precision synchronization and reduce the transmission burden of link aggregation nodes such as power dedicated gateways and CCOs.

Keywords

smart grid distributed clock synchronization node priority event-triggered mechanism

Get full access to this article

View all access options for this article.

References

Hung

Antonio

. Consensus/synchronisation of networked nonlinear multiple agent systems with event-triggered communications. Int J Control 2022; 95(5): 1305–1314.

Duan

Chen

, et al. Consensus of multiagent systems and synchronization of complex networks: a unified viewpoint. IEEE Trans Circ Syst I 2010; 57(1): 213–224.

Zhao

Zhang

, et al. Power grid clock synchronization optimization based on stackelberg game theory. Energies 2025; 18(9): 2216.

Morello

Fulco

Mukhopadhyay

, et al. Time synchronized power meters for advanced smart distribution of energy in smart grids. IEEE Sens J 2024; 24(19): 30909–30919.

Fang

Misra

Xue

, et al. Smart grid — the new and improved power grid: a survey. IEEE Commun Surv Tutorials 2012; 14(4): 944–980.

Liu

Sun

, et al. Time synchronization techniques in the modern smart grid: a comprehensive survey. Energies 2025; 18(5): 1163.

Elson

Girod

Estrin

. Fine-grained network time synchronization using reference broadcasts. SIGOPS Oper Syst Rev 2002; 36(SI): 147–163.

Shi

Wang

, et al. A novel rapid-flooding approach with real-time delay compensation for wireless-sensor network time synchronization. IEEE Trans Cybern 2020; 52(3): 1415–1428.

Chen

Yang

. Understanding PTP performance in today’s Wi-Fi networks. IEEE/ACM Trans Netw 2023; 31(6): 3037–3050.

10.

Zong

Chen

Canyelles-Pericas

, et al. Resilient time synchronisation for aerial swarms by distributed graph neural networks. IEEE Trans Netw Sci Eng 2025; 1–15.

11.

Yıldırım

Carli

Schenato

. Adaptive proportional–integral clock synchronization in wireless sensor networks. IEEE Trans Control Syst Technol 2017; 26(2): 610–623.

12.

Tian

Y-P

Liu

C-L

. Consensus of multi-agent systems with diverse input and communication delays. IEEE Trans Automat Contr 2008; 53(9): 2122–2128.

13.

Parvez

Alim

Alahmed

, et al. A gossip algorithm based clock synchronization scheme for smart grid applications. In: 2017 North American Power Symposium (NAPS). IEEE, 2017. DOI: 10.1109/NAPS.2017.8107266.

14.

Zhang

Tang

Wang

. Minimizing the age of synchronization in power-constrained wireless networks with unreliable time-varying channels. In: IEEE INFOCOM 2020 Workshops. IEEE, 2020, pp. 936–941. DOI: 10.1109/INFOCOMWKSHPS50562.2020.9162681.

15.

Wang

Zhang

Liu

, et al. A simple event-based average consensus clock synchronization scheme in industrial wireless sensor networks under communication delays. IEEE Trans Ind Inf 2024; 20(8): 10113–10122.

16.

Dimarogonas

Frazzoli

Johansson

. Distributed event-triggered control for multi-agent systems. IEEE Trans Automat Contr 2011; 57(5): 1291–1297.

17.

Kadowaki

Ishii

. Event-based distributed clock synchronization for wireless sensor networks. IEEE Trans Automat Contr 2014; 60(8): 2266–2271.

18.

Wiesner

Kovácsházy

. An innovative method to enhance PLL resolution in synchronized embedded systems. IEEE Trans Instrum Meas 2025. DOI: 10.1109/TIM.2025.3584124.

19.

Drazin

. Nonlinear systems. No. 10. Cambridge University Press, 1992.

Distributed adaptive clock synchronization scheme for smart grid based on system stability analysis

Abstract

Keywords

Get full access to this article

References