电力信息与通信技术2025,Vol.23Issue(4):43-49,7.DOI:10.16543/j.2095-641x.electric.power.ict.2025.04.06
基于5G NTN的电力星地融合通信技术应用研究
Research on Application of Power Satellite-terrestrial Integrated Communication Technology Based on 5G NTN
陈文伟 1章林 1韩亮 1宋佳旭 1练家兴1
作者信息
- 1. 国网信通产业集团北京中电飞华通信有限公司,北京市 丰台区 100070
- 折叠
摘要
Abstract
5G non-terrestrial network(NTN)is the most advanced satellite-terrestrial and air-space integrated communication technology,and is an important technology for terrestrial 5G communication systems for new application scenarios such as satellite communication and low-altitude communication.It is of great significance to study the key technologies and applications of 5G NTN for the construction of a digital,intelligent and strong power grid.On the basis of in-depth exposition of the situation and challenges faced by a new type of power system,this paper deeply analyzes the key technical characteristics and application scenarios of 5G NTN,combines the current communication requirements of a new type of power system's service blind zone,proposes an application architecture of power 5G NTN technology,builds a satellite-terrestrial integrated communication system for power services,and gives the application test results of the satellite-terrestrial integrated communication system in the power industry,and finally looks forward to the evolution and development trend of power air-space-earth integration technology.The deep coupling of 5G NTN technology with the power grid empowers the construction of a new type of power system,provides a strong air-space integrated communication guarantee for power multi-service carrying and information interaction,and lays the foundation for the construction of a power integrated communication network of air,space,and earth.关键词
5G NTN/星地融合/空天地一体化/数智化坚强电网Key words
5G non-terrestrial-network(NTN)/satellite-terrestrial integrated communication system/integration of air,space and earth/digital intelligence strong power grid分类
信息技术与安全科学引用本文复制引用
陈文伟,章林,韩亮,宋佳旭,练家兴..基于5G NTN的电力星地融合通信技术应用研究[J].电力信息与通信技术,2025,23(4):43-49,7.
