摘要
智慧电网在智慧城市占据核心地位,分布式能源更是智慧电网发展的主要构成。为了保证分布式能源发电与用户用电的安全性以及可靠性,构建一套完整的分布式能源监控网络已成为必然,而传统无线通信技术无法满足海量通信以及远距离传输的需求,此时迫切需要采用另一种安全可信、接入灵活、可实现双向实时交互的通信方式来承载大规模监控设备的接入。由于5G应用场景之一的mMTC拥有更高的频谱效率和海量连通性,因此文章探讨mMTC技术在智慧电网分布式能源调控中的应用,利用该技术支持大规模连接、低功耗及远距离传输的特点,弥补传统技术在连接数量上的不足,破除传统技术在传输距离上的局限,保证了数据传输过程的稳定性,同时为智慧电网中设备检测、信息采集和计量自动化等重要环节,提供了全新智慧电网与物联网技术融合的解决方案。
Smart grid occupies a core position in smart cities,and the distributed energy is the main component of the development of smart grid.In order to ensure that the distributed energy generation and the safety and reliability of power users,building a complete set of distributed energy monitoring network has become inevitable,and the traditional wireless communication technology cannot satisfy the demand of the mass communication and remote transmission,it is urgent to adopt another safe reliable,flexible access,which can realize real-time two-way interactive communication mode to carry large scale monitoring equipment.Due to mMTC,one of the application scenarios of 5G,has higher spectrum efficiency and mass connectivity.Therefore,the application of mMTC technology in smart grid distributed energy regulation is discussed,using the technical support for large-scale connection,the characteristics of low power consumption and long-distance transmission to make up for the inadequacy of the traditional technology on the number of connections,to break the limitations of the traditional technology on the transmission distance,and ensure the stability of the process of data transmission,meanwhile,and provides new technology integration solutions for smart grid and the Internet of things on the smart grid equipment detection,information collection and measurement automation and other important link.
作者
林艺
李晓坤
陈虹旭
徐秦成
李菲
孙怡然
Lin Yi;Li Xiaokun;Chen Hongxu;Xu Qincheng;Li Fei;Sun Yiran(Heilongjiang University,Harbin 150080,China;Postdoctoral Programmer of Heilongjiang Hengxun Technology Co.,Ltd.,Harbin 150090,China)
出处
《电测与仪表》
北大核心
2021年第8期132-138,共7页
Electrical Measurement & Instrumentation
基金
国家自然科学基金资助项目(81273649,61501132,61672181)
黑龙江省自然科学联合引导基金项目(LH2019F049,LH2019A029)
黑龙江省基础科研科技创新基金项目(KJCX201805)
黑龙江省基础科研青年创新团队基金项目(RCYJTD201805)
中央高校基本科研业务费专项资金项目(3072019CFT0603)
中国博士后科学基金项目(2019M650069)
中小企业创新基金项目(2017FF1GJ023)
专利优势示范企业基金项目(2017YBQCZ029)。