电力工程通信网络冗余设计与容错机制优化  

Redundancy Design and Fault-Tolerant Mechanism Optimization of Power Engineering Communication Network

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作  者:秦向向 宋鹏飞 熊燕辉 QIN Xiangxiang;SONG Pengfei;XIONG Yanhui(Shandong Chengxin Engineering Construction Supervision Co.,Ltd.,Jinan 250100,China)

机构地区:[1]山东诚信工程建设监理有限公司,山东济南250100

出  处:《通信电源技术》2025年第7期19-21,共3页Telecom Power Technology

摘  要:电力工程通信网络涉及多层级调度节点的通信与数据交互。冗余设计借助资源备份增强网络可靠性,而容错机制专注于故障的检测与恢复,二者共同保障网络的稳定性和动态适应能力。针对电力通信网络的优化需求,提出从优化目标建模到深度协同优化的系统化方法,利用数学建模明确可靠性、响应速度及资源效率的优化方向,设计冗余资源的动态部署方案和容错机制的实时响应策略,构建链路、路径与节点多层次的协同优化框架。实验验证了优化方法在路径可靠性、资源利用率和故障恢复时间上的显著提升,为复杂电力通信场景的网络优化提供创新的解决方案。The communication network of power engineering involves the communication and data exchange of multi-level scheduling nodes.Redundant design enhances network reliability through resource backup,while faulttolerant mechanisms focus on fault detection and recovery,jointly ensuring the stability and dynamic adaptability of the network.The paper proposes a systematic method for optimizing power communication networks,from modeling optimization objectives to deep collaborative optimization.By using mathematical modeling to clarify the optimization direction of reliability,response speed,and resource efficiency,a dynamic deployment scheme for redundant resources and a real-time response strategy for fault-tolerant mechanisms are designed,and a multi-level collaborative optimization framework for links,paths,and nodes is constructed.Experimental verification shows that the optimization method significantly improves path reliability,resource utilization,and fault recovery time,providing innovative solutions for network optimization in complex power communication scenarios.

关 键 词:电力工程通信网络 冗余设计 容错机制 协同优化 路径可靠性 

分 类 号:TM73[电气工程—电力系统及自动化]

 

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