摘要
针对传统变电站二次系统设计存在的信息孤立、流程割裂与协同效率低等问题,提出一种基于5G的三维正向设计方法。通过引入三维建模实现设备间关系与运行逻辑的可视化表达,结合5G低时延与高可靠的数据交互机制,构建多专业间的实时协同设计环境,并实现设计与运维环节的贯通。实验结果表明,该方法能够显著缩短设计周期,提升参数配置的准确性与跨部门协同效率,为二次系统的全生命周期管理提供了可行路径和技术支撑。
In order to solve the problems of information isolation,process fragmentation and low collaboration efficiency in the design of the secondary system of traditional substations,this paper proposes a 3D forward design method based on 5G communication.By introducing 3D modeling to realize the visual expression of the relationship between equipment and operation logic,combined with the low latency and high reliability data interaction mechanism of 5G,a real-time collaborative design environment between multiple specialties is built,and the connection between design and operation and maintenance is realized.Experimental results show that the proposed method can significantly shorten the design cycle,improve the accuracy of parameter configuration and cross-departmental collaboration efficiency,and provide a feasible path and technical support for the whole life cycle management of secondary systems.
作者
杜琛瑀
DU Chenyu(Anhui Mingsheng Electric Power Design Co.,Ltd.,Hefei 230092,China)
出处
《通信电源技术》
2025年第19期56-58,共3页
Telecom Power Technology
