References(35)
[1]
N. B. Reinprecht, G. White, and M. Peters, Enabling European electrical transmission and distribution smart grids by standards, IBM J. Res. Dev., vol. 60, no. 1, pp. 3:1-3:11, 2016.
[2]
G. J. Gong, Y. Sun, M. M. Cai, R. Z. Wu, and L. R. Tang, Research of network architecture and implementing scheme for the internet of things towards the smart grid, (in Chinese), Power Syst. Prot. Control, vol. 39, no. 20, pp. 52-58, 2011.
[3]
J. Y. Zhang, X. Q. Huang, Y. J. Cao, Y. S. Zhu, and J. He, Equipment encode-identification in internet of power transmission and transformation equipments, (in Chinese), Autom. Electric Power Syst., vol. 37, no. 9, pp. 92-96, 2013.
[4]
K. Liang, B. Y. Li, Y. Hu, X. B. Deng, and Y. Y. Wen, Internet of things RFID middleware technology and its applicated research in electric power communication identity management, (in Chinese), Comput. Sci., vol. 42, no. S1, pp. 355-358, 2015.
[5]
Y. Saleem, N. Crespi, M. H. Rehmani, and R. Copeland, Internet of things-aided smart grid: Technologies, architectures, applications, prototypes, and future research directions, IEEE Access, vol. 7, pp. 62 962-63 003, 2019.
[6]
F. Khan, M. A. B. Siddiqui, A. U. Rehman, J. Khan, M. T. S. A. Asad, and A. Asad, IoT based power monitoring system for smart grid applications, in Proc. 2020 Int. Conf. Engineering and Emerging Technologies (ICEET), Lahore, Pakistan, 2020, pp. 1-5.
[7]
S. Hussain, I. Ullah, H. Khattak, M. Adnan, S. Kumari, S. S. Ullah, M. A. Khan, and S. J. Khattak, A lightweight and formally secure certificate based signcryption with proxy re-encryption (CBSRE) for internet of things enabled smart grid, IEEE Access, vol. 8, pp. 93 230-93 248, 2020.
[8]
S. Al-Rubaye, E. Kadhum, Q. Ni, and A. Anpalagan, Industrial internet of things driven by SDN platform for smart grid resiliency, IEEE Internet Things J., vol. 6, no. 1, pp. 267-277, 2019.
[9]
A. K. Al Mhdawi and H. S. Al-Raweshidy, A smart optimization of fault diagnosis in electrical grid using distributed software-defined IoT system, IEEE Syst. J., vol. 14, no. 2, pp. 2780-2790, 2020.
[10]
M. A. Hasnat, M. J. Hossain, A. Adeniran, M. Rahnamay-Naeini, and H. Khamfroush, Situational awareness using edge-computing enabled internet of things for smart grids, presented at 2019 IEEE Globecom Workshops (GC Wkshps), Waikoloa, HI, USA, 2019, pp. 1-6.
[11]
T. C. Chiu, Y. Y. Shih, A. C. Pang, and C. W. Pai, Optimized day-ahead pricing with renewable energy demand-side management for smart grids, IEEE Internet Things J., vol. 4, no. 2, pp. 374-383, 2017.
[12]
H. Mortaji, S. H. Ow, M. Moghavvemi, and H. A. F. Almurib, Load shedding and smart-direct load control using internet of things in smart grid demand response management, IEEE Trans. Ind. Appl., vol. 53, no. 6, pp. 5155-5163, 2017.
[13]
M. Rana, Architecture of the Internet of energy network: An application to smart grid communications, IEEE Access, vol. 5, pp. 4704-4710, 2017.
[14]
S. Karimulla and K. Ravi, A review on importance of smart grid in electrical power system, presented at 2019 Int. Conf. Computation of Power, Energy, Information and Communication (ICCPEIC), Chennai, India, 2019, pp. 22-27.
[15]
E. Spanò, L. Niccolini, S. Di Pascoli, and G. Iannacconeluca, Last-meter smart grid embedded in an internet-of-things platform, IEEE Trans. Smart Grid, vol. 6, no. 1, pp. 468-476, 2015.
[16]
D. Minoli, K. Sohraby, and B. Occhiogrosso, IoT considerations, requirements, and architectures for smart buildings—Energy optimization and next-generation building management systems, IEEE Internet Things J., vol. 4, no. 1, pp. 269-283, 2017.
[17]
C. S. Shih, J. J. Chou, N. Reijers, and T. W. Kuo, Designing CPS/IoT applications for smart buildings and cities, IET Cyber-Phys. Syst.: Theory Appl., vol. 1, no. 1, pp. 3-12, 2016.
[18]
Y. Sun, Development trend of IoT industry in China, (in Chinese), Chin. J. Internet Things, vol. 1, no. 3, pp. 1-5, 2017.
[19]
M. C. Jing, J. Y. Wang, Z. H. Cheng, and L. Li, Research and application of sensor information model in power internet of things, (in Chinese), Power Syst. Technol., vol. 38, no. 2, pp. 532-537, 2014.
[20]
Z. Y. Hu, B. L. Yang, Y. M. Zhu, Y. X. Lü, Y. M. Cheng, and J. Q. Yang, Design for communication network of internet in on-line monitoring system for power transmission and transformation equipment, (in Chinese), High Voltage Eng., vol. 41, no. 7, pp. 2252-2258, 2015.
[21]
J. M. Liu, Z. Y. Zhao, and X. Ji, Research and application of Internet of things in power transmission and distribution system, (in Chinese), Chin. J. Internet Things, vol. 2, no. 1, pp. 88-102, 2018.
[22]
J. Li, J. Zhang, C. Wang, X. D. Li, D. L. Huang, and W. Xue, Research on integrated smart monitoring devices for internet of power transformation equipment, (in Chinese), High Voltage Eng., vol. 41, no. 12, pp. 3881-3887, 2015.
[23]
X. Y. Zhang, S. G. Li, J. Zhou, J. H. Ma, and K. Q. Liu, Deep-coverage study of NB-IoT in different network schemes, (in Chinese), Chin. J. Internet Things, vol. 1, no. 3, pp. 33-39, 2017.
[24]
J. L. Lan, P. Wang, J. Shen, X. H. Zhang, Y. X. Hu, and J. H. Zhang, Research on push cache of large-scale converging access networks, (in Chinese), Chin. J. Internet Things, vol. 1, no. 1, pp. 50-54, 2017.
[25]
Y. L. Hu, Y. F. Sun, and B. C. Yin. Information sensing and interaction technology in internet of things, (in Chinese), Chin. J. Comput., vol. 35, no. 6, pp. 1147-1163, 2012.
[26]
Z. H. Qian and Y. J. Wang, Internet of things-oriented wireless sensor networks review, (in Chinese), J. Electron. Inf. Technol., vol. 35, no. 1, pp. 215-227, 2013.
[27]
C. Y. Yang, Power grid emergency command system based on Internet of Things and spatial information technologies, (in Chinese), Power Syst. Technol., vol. 37, no. 6, pp. 1632-1638, 2013.
[28]
Q. Zhang, H. Yang, T. Q. S. Quek, S. Jin, and H. B. Zhu, Kernel of internet of things: internet of data, (in Chinese), Chin. J. Internet Things, vol. 1, no. 3, pp. 10-16, 2017.
[29]
X. Q. Huang, J. Y. Zhang, Y. S. Zhu, and Y. J. Cao, Research on monitoring system for power transmission and transformation equipments based on IoT, (in Chinese), Power Syst. Prot. Control, vol. 41, no. 9, pp. 137-141, 2013.
[30]
X. B. Huang, S. X. Fang, X. K. Wang, H. L. Wang, X. B. Li, and W. J. Li, High voltage switchgear cabinet based on IoT technology, (in Chinese), Electric Power Automation Equipment, vol. 33, no. 2, pp. 147-151, 2013.
[31]
Y. P. Zhong, X. H. Cheng, D. Dai, J. W. Zhang, and S. L. Shao, Study on monitoring system of on-line power transmission lines based on ZigBee technology, (in Chinese), Electrical Measurement & Instrumentation, vol. 50, no. 5, pp. 105-109, 2013.
[32]
T. C. Huang, L. L. Deng, W. Xue, J. Yu, M. Cao, and Z. Y. Hu, Communication network structure and topology analysis of internet of things for power transmission and transformation equipment, (in Chinese), High Voltage Eng., vol. 41, no. 12, pp. 3922-3928, 2015.
[33]
X. Shen, M. Cao, W. Xue, J. Li, Y. Lu, and L. S. Zhang, Research and application of intelligent online monitoring of power transmission and transformation equipment based on technology of internet of things, (in Chinese), Southern Power Syst. Technol., vol. 10, no. 1, pp. 32-41, 2016.
[34]
Z. L. Zhai, M. Cao, X. Shen, F. Wang, and E. Wang, Multidimensional information of aggregation technology for on-line monitoring of substation, (in Chinese), High Voltage Eng., vol. 41, no. 12, pp. 3973-3979, 2015.
[35]
J. M. Liu, Internet of Things and Smart Grid, (in Chinese). Beijing, China: Publishing House of Electronics Industry (PHEI), 2012.