面向控制类业务的电力无线专网演进分析

韦磊; 缪巍巍; 汪大洋; 丁忠林

doi:10.11959/j.issn.2096-3750.2025.00458

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面向控制类业务的电力无线专网演进分析

能源物联网 | 更新时间：2025-09-12

- 面向控制类业务的电力无线专网演进分析
- Evolution analysis of power wireless private networks for control services
- 物联网学报 2025年9卷第2期页码：117-126
- 作者机构：
  
  1.国网江苏省电力有限公司，江苏南京 210024
  2.国网电力科学研究院有限公司，江苏南京 211106
- 作者简介：
  
  [ "韦磊（1982‒ ），男，博士，国网江苏省电力有限公司信息通信分公司副总经理、正高级工程师，主要研究方向为电力信息通信技术。" ]
  [ "缪巍巍（1968‒ ），男，国网江苏省电力有限公司正高级工程师，主要研究方向为电力通信技术研究、电力物联网技术、信息化系统。" ]
  [ "汪大洋（1987‒ ），男，国网江苏省电力有限公司高级工程师，主要研究方向为电力无线专网、全光网络通信。" ]
  [ "丁忠林（1983‒ ），男，国网电力科学研究院有限公司高级工程师，主要研究方向为电力无线通信装置。" ]
- 基金信息：
  
  国家电网有限公司科技项目(5700-202318255A-1-1-ZN)
- DOI：10.11959/j.issn.2096-3750.2025.00458
  中图分类号： TN919
- 收稿日期：2024-11-13，
  
  修回日期：2025-04-14，
  
  纸质出版日期：2025-06-10
- 稿件说明：
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韦磊,缪巍巍,汪大洋等.面向控制类业务的电力无线专网演进分析[J].物联网学报,2025,09(02):117-126.

WEI Lei,MIU Weiwei,WANG Dayang,et al.Evolution analysis of power wireless private networks for control services[J].Chinese Journal on Internet of Things,2025,09(02):117-126.
韦磊,缪巍巍,汪大洋等.面向控制类业务的电力无线专网演进分析[J].物联网学报,2025,09(02):117-126. DOI： 10.11959/j.issn.2096-3750.2025.00458.

WEI Lei,MIU Weiwei,WANG Dayang,et al.Evolution analysis of power wireless private networks for control services[J].Chinese Journal on Internet of Things,2025,09(02):117-126. DOI： 10.11959/j.issn.2096-3750.2025.00458.

摘要

随着能源物联网和电力物联网的深入推进，无线通信技术在电力行业中的应用越来越受到重视。结合未来新型电力系统控制类业务的通信需求，分析了电力无线专网承载控制类业务的演进方向。分别探讨了基于自有频段和基于非授权频段的电力无线专网关键技术。前者以高质量业务通信、高效率频谱利用为演进目的，需要引入低时延转发、干扰抑制、频谱共享机制等技术；后者则聚焦于边缘控制网，融合新兴物联网技术进行演进，包括但不限于终端直通、窄带蜂窝物联网等技术。最后，分析新兴技术适配电力无线专网控制类业务的关键开放性命题，并探讨了潜在研究对策。

Abstract

With the in-depth advancement of energy IoT and power IoT

the application of wireless communication technology in the power industry has received more and more attention. Combined with the future new power system control service communication demand

the evolution direction of power wireless private network bearing control service was analyzed. The key technologies of power wireless private network based on its own frequency band and based on unauthorized frequency band were discussed respectively. High-quality service communication and high-efficiency spectrum utilization were taken by the former as the purpose of evolution

and technologies such as low-latency forwarding

interference suppression

and spectrum sharing mechanism needed to be introduced. The edge control network was focused on by the latter

and the emerging IoT technologies for the evolution were integrated

including but not limited to

the terminal pass-through

and narrowband cellular IoT technologies. Finally

the key open propositions of emerging technologies adapted to power wireless private network control services were analyzed

and potential research countermeasures were explored.

关键词

Keywords

references

DONOHO D L . Compressed sensing [J ] . IEEE Transactions on Information Theory , 2006 , 52 ( 4 ): 1289 - 1306 .

XU D , ZHU H B . Energy efficient resource allocation for wireless powered short packet communication networks [J ] . IEEE Communications Letters , 2024 , 28 ( 8 ): 1880 - 1884 .

LI Z L . Research on the evolution and service test of 230 MHz electric power wireless private network [D ] . Beijing : North China Electric Power University , 2021 .

PANTAZIS N A , NIKOLIDAKIS S A , VERGADOS D D . Energy-efficient routing protocols in wireless sensor networks: a survey [J ] . IEEE Communications Surveys & Tutorials , 2013 , 15 ( 2 ): 551 - 591 .

陈树勇 , 宋书芳 , 李兰欣 , 等 . 智能电网技术综述 [J ] . 电网技术 , 2009 , 33 ( 8 ): 1 - 7 .

CHEN S Y , SONG S F , LI L X , et al . Survey on smart grid technology [J ] . Power System Technology , 2009 , 33 ( 8 ): 1 - 7 .

GOUDA N , ALY H H . Distributed energy sources management using shuffled frog-leaping algorithm for optimizing the environmental and economic indices of smart microgrid [C ] // Proceedings of the 2024 ASU International Conference in Emerging Technologies for Sustainability and Intelligent Systems (ICETSIS) . Piscataway : IEEE Press , 2024 : 1507 - 1511 .

YE H , HUANG H H , HE Y , et al . Optimal scheduling method of virtual power plant based on model predictive control [C ] // Proceedings of the 2023 3rd International Conference on Energy, Power and Electrical Engineering (EPEE) . Piscataway : IEEE Press , 2023 : 1439 - 1443 .

HU W , DONG Y , ZHANG L , et al . Research on complementarity of multi-energy power systems: a review [J ] . iEnergy , 2023 , 2 ( 4 ): 275 - 283 .

朱从亮 . 基于5G电力物联网的低压智能台区管理平台 [D ] . 浙江 : 浙江大学 , 2022 .

ZHU C L . Low-voltage intelligent station management platform based on 5G power IoT [D ] . Zhejiang : Zhejiang University , 2022 .

NGUYEN S , SALCIC Z , ZHANG X Y , et al . A low-cost two-tier fog computing testbed for streaming IoT-based applications [J ] . IEEE Internet of Things Journal , 2021 , 8 ( 8 ): 6928 - 6939 .

LYU W K , WANG Q , YANG P F , et al . Microservice deployment in edge computing based on deep Q learning [J ] . IEEE Transactions on Parallel and Distributed Systems , 2022 , 33 ( 11 ): 2968 - 2978 .

ALQERM I , PAN J L . DeepEdge: a new QoE-based resource allocation framework using deep reinforcement learning for future heterogeneous edge-IoT applications [J ] . IEEE Transactions on Network and Service Management , 2021 , 18 ( 4 ): 3942 - 3954 .

WANG Y Y , CHIH-LIN I , SUN J S , et al . End to end AI architecture for next generation network [J ] . IEEE Wireless Communications , 2024 , 31 ( 1 ): 86 - 92 .

张小建 , 费稼轩 , 姜海涛 , 等 . 电力5G混合组网的安全风险分析 [J ] . 电信科学 , 2022 , 38 ( 1 ): 132 - 139 .

ZHANG X J , FEI J X , JIANG H T , et al . Security risk analysis of power 5G hybrid networking [J ] . Telecommunications Science , 2022 , 38 ( 1 ): 132 - 139 .

HOSSEN M A , VU T X , NGUYEN V D , et al . Joint resource allocation and link adaptation for ultra-reliable and low-latency services [C ] // Proceedings of the 2023 IEEE 20th Consumer Communications & Networking Conference (CCNC) . Piscataway : IEEE Press , 2023 : 757 - 762 .

LIANG W J , XU S N , LIANG Y T , et al . Researches advanced in reliable low latency transmission based on multi-links [C ] // Proceedings of the 2023 IEEE 3rd International Conference on Electronic Technology, Communication and Information (ICETCI) . Piscataway : IEEE Press , 2023 : 67 - 70 .

HABU S , SAKAGUCHI K , TRAN G K . MmWave multi-beam V2X with fountain code for joint ultra-broadband, reliable, and low latency communication [C ] // Proceedings of the 2023 IEEE 98th Vehicular Technology Conference (VTC2023-Fall) . Piscataway : IEEE Press , 2023 : 1 - 5 .

潘跟 . 基于电磁频谱特征的智能干扰与抗干扰通信技术及系统实现 [D ] . 南京 : 南京邮电大学 , 2023 .

PAN G . Intelligent interference and anti-interference communication technology and system realisation based on electromagnetic spectrum characteristics [D ] . Nanjing : Nanjing University of Posts and Telecommunications , 2023 .

GAO Y L , XIAO Y , WU M M , et al . Game theory-based anti-jamming strategies for frequency hopping wireless communications [J ] . IEEE Transactions on Wireless Communications , 2018 , 17 ( 8 ): 5314 - 5326 .

赵丙镇 . 配用电业务用中频带电力线宽带通信技术及其安全性研究 [D ] . 武汉 : 武汉大学 , 2023 .

ZHAO B Z . Research on medium frequency band power line broadband communication technology and its security for power distribution service [D ] . Wuhan : Wuhan University , 2023 .

JIANG R , LIU J , WAN K , et al . Research on interference identification technology based on frequency hopping communication [C ] // Proceedings of the 2023 IEEE 23rd International Conference on Communication Technology (ICCT) . Piscataway : IEEE Press , 2023 : 166 - 170 .

罗智敏 , 刘建 . 5G RedCap移动通信技术解析 [J ] . 数字通信世界 , 2023 ( 10 ): 10 - 13 .

LUO Z M , LIU J . Analysis of 5G RedCap mobile communication technology [J ] . Digital Communication World , 2023 ( 10 ): 10 - 13 .

ZHENG K J , WANG Y J , ZHUANG D W , et al . D2D resource allocation optimization algorithm based on deep reinforcement learning [C ] // Proceedings of the 2024 4th International Conference on Electronic Materials and Information Engineering (EMIE) . Piscataway : IEEE Press , 2024 : 108 - 111 .

HOU Y T , GONG H Q , WANG X Y , et al . Energy saving of base station system for power private wireless network based on D2D communication [C ] // Proceedings of the 2023 6th International Conference on Artificial Intelligence and Big Data (ICAIBD) . Piscataway : IEEE Press , 2023 : 597 - 602 .

3GPP. Physical channels and modulation: TS 38.211 v16.1.0 [S ] . 2022 .

3GPP. User Equipment (UE) radio transmission and reception Part 1: Range 1Standalone: TS 38.101-1 v16.5.0 [S ] . 2022 .

3GPP. User Equipment (UE) radio transmission and reception Part 2: Range 2Standalone: TS 38.101-2 v17.6.0 [S ] . 2022 .

陈如广 . 基于NB-IoT的智慧农业生产监测系统 [J ] . 智慧农业导刊 , 2023 , 3 ( 8 ): 14 - 16, 23 .

CHEN R G . Intelligent agricultural production monitoring system based on NB-IoT [J ] . Journal of Smart Agriculture , 2023 , 3 ( 8 ): 14 - 16, 23 .

GUO X R , ZHANG Z J , GUO Q R , et al . Analysis of power business carried by 230 MHz narrowband wireless private network [C ] // Proceedings of the 2024 IEEE 7th Information Technology, Networking, Electronic and Automation Control Conference (ITNEC) . Piscataway : IEEE Press , 2024 : 1936 - 1940 .

LU X C , YANG T , GENG Y L , et al . NB-IoT deployment scheme with power and carrier allocation in LTE&NR macro base stations [C ] // Proceedings of the 2024 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting (BMSB) . Piscataway : IEEE Press , 2024 : 1 - 6 .

MARKOVIĆ I R , VUKOBRATOVIĆ D . Five years of 3GPP NB-IoT technology: what are the main use cases? [C ] // Proceedings of the 2024 23rd International Symposium INFOTEH-JAHORINA (INFOTEH) . Piscataway : IEEE Press , 2024 : 1 - 5 .

DU X J , LAI M . Research on NB-IoT device access security solutions [C ] // Proceedings of the 2023 3rd International Conference on Electronic Information Engineering and Computer (EIECT) . Piscataway : IEEE Press , 2023 : 419 - 424 .

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