摘要
文章设计了基于交换光网络的电力通信传输网络架构,包括核心层、汇聚层以及接入层,详细阐述了各层次的功能和技术要求,重点分析了自动维护网络拓扑、智能选择动态路由、网络保护恢复机制等关键控制方法,使用链路状态协议、智能路由算法以及网络保护恢复机制,实现网络的实时监控、动态调整以及故障恢复。设计的方法提升了网络的整体性能,满足了现代电力系统对高带宽、低延迟以及高可靠性通信的需求,为电力通信传输网络的设计和优化提供了系统化的方法与实践经验,具有较高的理论价值和应用前景。
This article designs a power communication transmission network architecture based on switched optical networks,including core layer,aggregation layer,and access layer.It elaborates on the functions and technical requirements of each layer,and focuses on analyzing key control methods such as automatic maintenance of network topology,intelligent selection of dynamic routing,and network protection recovery mechanism.By using link state protocol,intelligent routing algorithm,and network protection recovery mechanism,real-time monitoring,dynamic adjustment,and fault recovery of the network are achieved.The method used in this system improves the overall performance of the network,meets the requirements of modern power systems for high bandwidth,low latency,and high reliability communication,and provides systematic methods and practical experience for the design and optimization of power communication transmission networks.It has high theoretical value and application prospects.
作者
苏园理
SU Yuanli(Changjiang Wuhu Communication Management Bureau,Wuhu 241000,China)
出处
《通信电源技术》
2024年第17期198-200,共3页
Telecom Power Technology
关键词
交换光网络技术
电力通信传输
网络控制
switching optical network technology
power communication transmission
network control
