О применении технологии 5G в автоматизации распределительных электросетей
- Страницы / Pages
- 107-114
Аннотация
Рассмотрены особенности применения технологии 5G в электроэнергетическом комплексе — автоматизированных системах распределительных сетей, системах релейной защиты и мониторинга. Особое внимание уделено анализу возникающих при этом проблем, связанных с разработкой технических стандартов, вопросам обеспечения безопасности сетей и необходимых зон покрытия. Проанализированы перспективы интеграции технологии 5G и распределительных электросетей.
Abstract
The paper considers the features of the application of 5G technology in the electric power complex — in automated systems of distribution networks, relay protection and monitoring systems. Special attention is paid to the analysis of the problems arising in this case in technical standards, network security issues, ensuring the necessary coverage areas. The prospects of integration of 5G technology and power distribution networks are analyzed.
Список литературы
1. Risteska-Stojkoska B. L., Trivodaliev K. V. A review of Internet of Things for smart home: Challenges and solutions // Journal of Cleaner Production. 2017. Vol. 140. Р. 1454—1464.
2. Wang S., Zhu L., Zhang Z., Zhang S. Research on single phase grounding fault detection technology of distribution grid based on intelligent variable terminal // Power System Technology. 2019. Vol. 43, № 12. Р. 4291—4298.
3. Liu J., Chen L., Zhang Z. Estimation of static parameters testability for distribution grid considering the effect of measurement errors // Power System Technology. 2020. Vol. 44, № 4. Р. 1481—1487.
4. Hu S., Chen X., Ni W. et al. Modeling and analysis of energy harvesting and smart grid-powered wireless communication networks: a contemporary survey // IEEE Transactions on Green Communications and Networking. 2020. Vol. 4, № 2. Р. 461—496.
5. Tao W., Dou K., Chen F. et al. Comparison and technical analysis of phasor data access modes in distribution grid // Power System Technology. 2019. Vol. 43, № 3. Р. 784—792.
6. Liu J., Ni J., Xu L. Management of distribution automation system (DAS) // Power System Technology. 1998. Vol. 8. Р. 3—5.
7. Wu Y., Gao H., Xu B. et al. Distributed fault self-healing scheme and its imple- mentation for active distribution grid // Automation of Electric Power Systems. 2019. Vol. 43, № 9. Р. 140—155.
8. Lin L., Qi B., Li B. et al. Requirements and developing trends of electric power communication network for new services in electric Internet of Things // Power System Technology. 2020. Vol. 44, № 8. Р. 3114—3130.
9. Zhu Z., Xu B., Yip T. et al. IEC 61850 based models for distributed feeder automation system // Automation of Electric Power Systems. 2018. Vol. 42, № 23. P. 148—156.
10. Ghosh A., Maeder A., Baker M. Chandramouli D. 5G evolution: a view on 5G cellular technology beyond 3GPP release 15 // IEEE Access. 2019. Vol. 7. Р. 127639—127651.
11. Shafi M., Molisch A. F., Smith P. J. et al. 5G: a tutorial overview of standards, trials, challenges, deployment, and practice // IEEE Journal on Selected Areas in Communications. 2017. Vol. 35, № 6. Р. 1201—1221.
12. Parvez I., Rahmati A., Guvenc I. et al. A survey on low latency towards 5G: RAN, core network and caching solutions // IEEE Communications Surveys & Tutorials. 2018. Vol. 20, № 4. Р. 3098—3130.
13. Andrews J. G., Buzzi S., Choi W. et al. What will 5G be // IEEE Journal on Selected Areas in Communications. 2014. Vol. 32, № 6. Р. 1065—1082.
14. Agiwal M., Roy A., Saxena N. Next generation 5G wire-less networks: a comprehensive survey // IEEE Communications Surveys & Tutorials. 2016. Vol. 18, № 3. Р. 1617—1655.
15. Zhu T., Qian A., He X. et al. An overview of data-driven electricity consumption behavior analysis method and application // Power System Technology. 2020. Vol. 44, № 9. Р. 3497—3507.