摘要
随着中国国家经济的不断发展,电力负荷不断增高,电网基建工程数量也日益增多。针对电网基建工程中存在的施工装备数字化能力弱、协同性差的问题,采用5G网络切片技术划分电力基建施工装备信道,从而实现多类型基建施工装备之间的音视频与数据交互。在此基础上,采用北斗技术和匈牙利算法,建立了电网基建施工装备数字化协同策略,实现基建施工界面下的集中指挥与多位置任务协同工作。通过在某省电力公司变电站和线路现场实例应用,其数字化协同准确性达99.4%。应用结果表明:该方法可提高电网基建施工数字化协同能力,减轻电网基建施工人员工作量。
With the continuous development of China’s national economy,the power load continues to increase,and the number of power grid infrastructure projects is also increasing.Aiming at the problems of weak digitalization capability and poor coordination of construction equipment in power grid infrastructure projects,5G network slicing technology is used to divide power infrastructure construction equipment channels,so as to realize audio,video and data interaction among multiple types of infrastructure construction equipment.On this basis,using Beidou technology and Hungarian algorithm,a digital coordination strategy for power grid infrastructure construction equipment is established to realize centralized command and multi-location task coordination under the infrastructure construction interface.Through the application in the substation and line field of a provincial power company,the accuracy of digital collaboration reaches 99.4%.The application results show that this method can improve the digital coordination ability of power grid infrastructure construction and reduce the workload of power grid infrastructure construction personnel.
作者
唐冬来
宋卫平
付世峻
黄璞
杨俏
叶鸿飞
TANG Donglai;SONG Weiping;FU Shijun;HUANG Pu;YANG Qiao;YE Hongfei(Aostar Information Technology Co.,Ltd.,Chengdu 610041,China)
出处
《电子设计工程》
2023年第15期15-19,共5页
Electronic Design Engineering
基金
国家重点研发计划(2016YFB0901102)。
关键词
5G网络切片
电网基建
施工装备
数字化协同
多位置任务
匈牙利算法
5G network slicing
power grid infrastructure
construction equipment
digital collaboration
multi-location tasks
Hungarian algorithm
