FAULT DIAGNOSIS MODELLING OF POWER SYSTEM CONTROLLER BASED ON PLC TECHNOLOGY

Dong She

References

1. [1] D. Yang, Y. Wang, and Z. Chen, Robust fault diagnosisand fault tolerant control for PEMFC system based on anaugmented LPV observer, International Journal of HydrogenEnergy, 45(24), 2020, 13508–13522.
2. [2] V. Ashok and A. Yadav, Fault diagnosis scheme for cross-country faults in dual-circuit line with emphasis on high-impedance fault syndrome, IEEE Systems Journal, 15(2),2020, 2087–2097.
3. [3] B. Pang, T. Tian, and G.J. Tang, Fault state recognition of windturbine gearbox based on generalized multi-scale dynamic timewarping, Structural Health Monitoring, 20(6), 2021, 3007–3023.
4. [4] F.R. Badal, S.K. Sarker, Z. Nayem, and K.D. Sajal, Robustdesign of high performance controller for transient stabilityenhancement of single machine infinite bus power system,International Journal of Power and Energy Conversion, 12(4),2020, 294–313.
5. [5] M. Venkateswaran, C. Govindaraju, and T.K. Santhosh,Integrated predictive control and fault diagnosis algorithmfor single inductor-based DC-DC converters for photovoltaicsystems, Circuit World, 47(1), 2020, 105–116.
6. [6] Z. Li, P. Wheeler, A. Watson, A. Costabeber, B. Wang, Y. Ren,Z. Bai, and H. Ma, A fast diagnosis method for both IGBT faultsand current sensor faults in grid-tied three-phase inverters withtwo current sensors, IEEE Transactions on Power Electronics,35(5), 2020, 5267–5278.
7. [7] S. Dai, D. Wang, W. Li, Q. Zhou, G. Tian, and H. Dong, Faultdiagnosis of data-driven photovoltaic power generation systembased on deep reinforcement learning, Mathematical Problemsin Engineering, 2021(49), 2021, 2–11.
8. [8] M. Saadatmand, B. Mozafari, G.B. Gharehpetian, andS. Soodabeh, Optimal coordinated tuning of power systemstabilizers and wide area measurement-based fractional, orderPID controller of large-scale PV farms for LFO damping insmart grids, International Transactions on Electrical EnergySystems, 31(2), 2021, 2–20.
9. [9] B. Chandran, S. Vasudevan, and T.A. Raghavendiran,Investigation of real power flow control of AI based MC-UPFC in FACTS controllers, Energy and Power, 14(4), 2020,111–130.
10. [10] D. Zhang, C. Li, M. Shahidehpour, Q.W. Wu, B. Zhou,and C. Zhang, A bi-level machine learning method forfault diagnosis of oil-immersed transformers with featureexplainability, International Journal of Electrical Power andEnergy Systems, 134(9), 2022, 5–14.
11. [11] A. Ghosh, G.N. Wang, and J. Lee, A novel automata andneural network based fault diagnosis system for PLC controlledmanufacturing systems, Computers and Industrial Engineering,139(1), 2020, 2–17.
12. [12] W. Hu, A.G. Starr, and A.Y.T. Leung, Two diagnosticmodels for PLC controlled flexible manufacturing systems,International Journal of Machine Tools and Manufacture,39(12), 1999, 1979–1991.
13. [13] J. Bao, H. Wu, and Y. Yan, A fault diagnosis system-PLCdesign for system reliability improvement, The InternationalJournal of Advanced Manufacturing Technology, 75, 2014,523–534.
14. [14] L. Selak, P. Butala, and A. Sluga, Condition monitoring andfault diagnostics for hydropower plants, Computers in Industry,65(6), 2014, 924–936.
15. [15] G. Wang, Y. Liu, X. Chen, Q. Yan, H. Sui, C. Ma, and J. Zhang,Power transformer fault diagnosis system based on Internet ofThings, EURASIP Journal on Wireless Communications andNetworking, 2021, 2021, 1–24.
16. [16] D. Guha, P.K. Roy, and S. Banerjee, Observer-aided resilienthybrid fractional-order controller for frequency regulation ofhybrid power system, International Transactions on ElectricalEnergy Systems, 31(9), 2021, 2–22.
17. [17] A. Mishra, K.G.V. Nagesh, and S.K. Bali, Optimizedutilization of interline power flow controller in an integratedpower system, World Journal of Engineering, 17(2), 2020,261–266.
18. [18] F.H. Hajam and M.U.D. Mufti, An intelligent two-level controlof ultrabattery for improved automatic generation control of amulti-source deregulated power system, International Journalof Energy Research, 45(5), 2021, 7933–7960.
19. [19] M.H. Qais, H.M. Hasanien, and S. Alghuwainem, Whaleoptimization algorithm-based Sugeno fuzzy logic controllerfor fault ride-through improvement of grid-connected variablespeed wind generators, Engineering Applications of ArtificialIntelligence, 87(1), 2020, 2–14.
20. [20] Z. Chen, Research on internet security situation awarenessprediction technology based on improved RBF neuralnetwork algorithm, Journal of Computational and CognitiveEngineering, 1(3), 2022, 103–108.
21. [21] D.V. Nair and M.S.R. Murty, Fault tolerant-based virtualactuator design for wide-area damping control in power system,Electrical Engineering, 103(3), 2021, 463–477.
22. [22] Z. Farooq, A. Rahman, and S.A. Lone, System dynamics andcontrol of EV incorporated deregulated power system usingMBO-optimized cascaded ID-PD controller, InternationalTransactions on Electrical Energy Systems, 31(11), 2021,5–16.
23. [23] T. Zhang, X. Zhao, R. Hu, and W.X. Fu, A method for faultdiagnosis of power system of carrier rocket engine based onlinear-quadratic receding time-domain algorithm, Proceedingsof the Institution of Mechanical Engineers, Part G: Journal ofAerospace Engineering, 236(4), 2022, 739–752.

Important Links:

• Abstract
• DOI: 10.2316/J.2025.201-0437
• From Journal (201) Mechatronic Systems and Control - 2025

Go Back