Application of automation technology in power system protection and control

[1]Peyghami, S., Palensky, P., & Blaabjerg, F. (2020). An overview on the reliability of modern power electronic based power systems. IEEE Open Journal of Power Electronics, 1, 34-50. PeyghamiS., PalenskyP. & BlaabjergF. (2020). An overview on the reliability of modern power electronic based power systems. IEEE Open Journal of Power Electronics, 1, 34-50.Search in Google Scholar

[2]Anderson, P. M., Henville, C. F., Rifaat, R., Johnson, B., & Meliopoulos, S. (2021). Power system protection. John Wiley & Sons. AndersonP. M., HenvilleC. F., RifaatR., JohnsonB. & MeliopoulosS. (2021). Power system protection. John Wiley & Sons.Search in Google Scholar

[3]Dehghanian, P., Aslan, S., & Dehghanian, P. (2018). Maintaining electric system safety through an enhanced network resilience. IEEE Transactions on Industry Applications, 54(5), 4927-4937. DehghanianP., AslanS. & DehghanianP. (2018). Maintaining electric system safety through an enhanced network resilience. IEEE Transactions on Industry Applications, 54(5), 4927-4937.Search in Google Scholar

[4]Ram, B. (2022). Power system protection and switchgear. Tata McGraw Hill. RamB. (2022). Power system protection and switchgear. Tata McGraw Hill.Search in Google Scholar

[5]Shen, Y. (2023). Exploring The Relationship Between Power System And Its Automation And Relay Protection. Journal of Theory and Practice of Engineering Science, 3(1), 1-3. ShenY. (2023). Exploring The Relationship Between Power System And Its Automation And Relay Protection. Journal of Theory and Practice of Engineering Science, 3(1), 1-3.Search in Google Scholar

[6]Sayed, K., & Gabbar, H. A. (2017). SCADA and smart energy grid control automation. In Smart energy grid engineering (pp. 481-514). Academic Press. SayedK. & GabbarH. A. (2017). SCADA and smart energy grid control automation. In Smart energy grid engineering (pp. 481-514). Academic Press.Search in Google Scholar

[7]Ullah, K., Basit, A., Ullah, Z., Aslam, S., & Herodotou, H. (2021). Automatic generation control strategies in conventional and modern power systems: A comprehensive overview. Energies, 14(9), 2376. UllahK., BasitA., UllahZ., AslamS. & HerodotouH. (2021). Automatic generation control strategies in conventional and modern power systems: A comprehensive overview. Energies, 14(9), 2376.Search in Google Scholar

[8]Stolojescu-Crisan, C., Crisan, C., & Butunoi, B. P. (2021). An IoT-based smart home automation system. Sensors, 21(11), 3784. Stolojescu-CrisanC., CrisanC. & ButunoiB. P. (2021). An IoT-based smart home automation system. Sensors, 21(11), 3784.Search in Google Scholar

[9]Sarkar, S., Teo, Y. M., & Chang, E. C. (2022). A cybersecurity assessment framework for virtual operational technology in power system automation. Simulation Modelling Practice and Theory, 117, 102453 SarkarS., TeoY. M. & ChangE. C. (2022). A cybersecurity assessment framework for virtual operational technology in power system automation. Simulation Modelling Practice and Theory, 117, 102453Search in Google Scholar

[10]Wang, K., & Li, W. (2019). Application of electrical automation technology in power system. Journal of Power and Energy Engineering, 7(5), 8-13. WangK. & LiW. (2019). Application of electrical automation technology in power system. Journal of Power and Energy Engineering, 7(5), 8-13.Search in Google Scholar

[11]Reimert, D. (2017). Protective relaying for power generation systems. CRC press. ReimertD. (2017). Protective relaying for power generation systems. CRC press.Search in Google Scholar

[12]Wójtowicz, R., Kowalik, R., & Rasolomampionona, D. D. (2017). Next Generation of Power System Protection Automation–Virtual Power System Protections. IEEE Transactions on Power Delivery, (99), 1. WójtowiczR., KowalikR. & RasolomampiononaD. D. (2017). Next Generation of Power System Protection Automation–Virtual Power System Protections. IEEE Transactions on Power Delivery, (99), 1.Search in Google Scholar

[13]Ruihua, L. (2020, June). Research and Analysis on the specialty of relay protection and automation technology in power system. In 2020 International Conference on Wireless Communications and Smart Grid (ICWCSG) (pp. 275-278). IEEE. RuihuaL. (2020, June). Research and Analysis on the specialty of relay protection and automation technology in power system. In 2020 International Conference on Wireless Communications and Smart Grid (ICWCSG) (pp. 275-278). IEEE.Search in Google Scholar

[14]Kuzhekov, S. L., & Degtyarev, A. A. (2017). On the coordination of current transformers and relay protection and automation operation of electric-power systems in transient short-circuit states. Russian Electrical Engineering, 88(12), 832-838. KuzhekovS. L. & DegtyarevA. A. (2017). On the coordination of current transformers and relay protection and automation operation of electric-power systems in transient short-circuit states. Russian Electrical Engineering, 88(12), 832-838.Search in Google Scholar

[15]Chen, S. C. (2022). Research on electrical automation monitoring system model of power plant based on CAN bus. Journal of Electrical and Computer Engineering, 2022(1), 4858826. ChenS. C. (2022). Research on electrical automation monitoring system model of power plant based on CAN bus. Journal of Electrical and Computer Engineering, 2022(1), 4858826.Search in Google Scholar

[16]Momoh, J. A. (2017). Electric power distribution, automation, protection, and control. CRC press. MomohJ. A. (2017). Electric power distribution, automation, protection, and control. CRC press.Search in Google Scholar

[17]Kulkarni, V., Sahoo, S. K., Thanikanti, S. B., Velpula, S., & Rathod, D. I. (2021). Power systems automation, communication, and information technologies for smart grid: A technical aspects review. TELKOMNIKA (Telecommunication Computing Electronics and Control), 19(3), 1017-1029. KulkarniV., SahooS. K., ThanikantiS. B., VelpulaS. & RathodD. I. (2021). Power systems automation, communication, and information technologies for smart grid: A technical aspects review. TELKOMNIKA (Telecommunication Computing Electronics and Control), 19(3), 1017-1029.Search in Google Scholar

[18]Sajadi, A., Strezoski, L., Strezoski, V., Prica, M., & Loparo, K. A. (2019). Integration of renewable energy systems and challenges for dynamics, control, and automation of electrical power systems. Wiley Interdisciplinary Reviews: Energy and Environment, 8(1), e321. SajadiA., StrezoskiL., StrezoskiV., PricaM. & LoparoK. A. (2019). Integration of renewable energy systems and challenges for dynamics, control, and automation of electrical power systems. Wiley Interdisciplinary Reviews: Energy and Environment, 8(1), e321.Search in Google Scholar

[19]Kumar, D. S., Savier, J. S., & Biju, S. S. (2020). Micro-synchrophasor based special protection scheme for distribution system automation in a smart city. Protection and Control of Modern Power Systems, 5(1), 1-14. KumarD. S., SavierJ. S. & BijuS. S. (2020). Micro-synchrophasor based special protection scheme for distribution system automation in a smart city. Protection and Control of Modern Power Systems, 5(1), 1-14.Search in Google Scholar

[20]Manoj, K. S. (2021). Power system automation: Build secure power system scada & smart grids. Notion Press. ManojK. S. (2021). Power system automation: Build secure power system scada & smart grids. Notion Press.Search in Google Scholar

[21]OKONKWO, Emeka Patrick, OSAZEVBARU, Osahon Henry, EROMAFURU, Edward Godbless & ARUOREN, Emmanuel Ejiroghene. (2025). Impact of TQM Dimensions on the Performance of Julius Berger Nigeria PLC. Journal of Global Economics, Management and Business Research 1-20. OKONKWOEmeka Patrick, OSAZEVBARUOsahon Henry, EROMAFURUEdward Godbless & ARUORENEmmanuel Ejiroghene. (2025). Impact of TQM Dimensions on the Performance of Julius Berger Nigeria PLC. Journal of Global Economics, Management and Business Research 1-20.Search in Google Scholar

[22]Simon Pena Pereira, Azarakhsh Rafiee & Stef Lhermitte. (2024). Automated Rooftop Solar Panel Detection Through Convolutional Neural Networks. Canadian Journal of Remote Sensing(1), PereiraSimon Pena, RafieeAzarakhsh & LhermitteStef. (2024). Automated Rooftop Solar Panel Detection Through Convolutional Neural Networks. Canadian Journal of Remote Sensing(1),Search in Google Scholar

[23]Seyrek Eren Can & Uysal Murat. (2023). A comparative analysis of various activation functions and optimizers in a convolutional neural network for hyperspectral image classification. Multimedia Tools and Applications(18), 53785-53816. CanSeyrek Eren & MuratUysal. (2023). A comparative analysis of various activation functions and optimizers in a convolutional neural network for hyperspectral image classification. Multimedia Tools and Applications(18), 53785-53816.Search in Google Scholar

[24]Li Zhaotong, Huang Xinrui, Zhang Zeru, Liu Liangyou, Wang Fei, Li Sha... & Xia Jun. (2022). Synthesis of magnetic resonance images from computed tomography data using convolutional neural network with contextual loss function. Quantitative imaging in medicine and surgery(6), 3151-3169. ZhaotongLi, XinruiHuang, ZeruZhang, LiangyouLiu, FeiWang, ShaLi... & JunXia. (2022). Synthesis of magnetic resonance images from computed tomography data using convolutional neural network with contextual loss function. Quantitative imaging in medicine and surgery(6), 3151-3169.Search in Google Scholar