Dr. Abdelaziz Salah Saidi
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Dr. Abdelaziz Salah Saidi

Associate Professor
Department of Electrical Engineering, King Khalid University, Saudi Arabia

Highest Degree
Ph.D. in Electrical Engineering from National Engineering School of Tunis, Tunisia

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Biography

Dr. Abdelaziz Salah Saidi was born in Tunisia, in 1979. He joined the Higher Institute of Computer Science of Kef as assistant Professor in 2012. He is currently Associate professor of Electrical Engineering at King Khalid University in Abha. He is received his M.S in Electrical systems from the national engineering school of Tunis in the year 2003. He received his Ph. D degrees in electrical engineering in 2011 from the same school. His main interest research areas focuses on dynamical systems theory applied to power systems integrating Renewable Energy, power systems voltage stability using load flow techniques and power systems control and operation. He published more than 30 research papers in many ISI journal and international conferences.

Area of Interest:

Energy
100%
Voltage Stability
62%
Power System Analysis
90%
Renewable Energy
75%
Wind Energy
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
34
Abstracts
0

Selected Publications

  1. Saidi, A.S., 2022. Impact of grid-tied photovoltaic systems on voltage stability of Tunisian distribution networks using dynamic reactive power control. Ain Shams Eng. J., Vol. 13. 10.1016/j.asej.2021.06.023.
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  2. Amrr, S.M., R. Sarkar, A. Banerjee, A.S. Saidi and M.U. Nabi, 2022. Fault-tolerant finite‐time adaptive higher order sliding mode control with optimized parameters for attitude stabilization of spacecraft. Int. J. Robust Nonlinear Control, 32: 2845-2863.
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  3. Saidi, A.S., C.B. Salah, A. Errachdi, M.F. Azeem, J.K. Bhutto and V.P.T. Ijyas, 2021. A novel approach in stand-alone photovoltaic system using MPPT controllers & NNE. Ain Shams Eng. J., 12: 1973-1984.
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  4. Saha, S., S.M. Amrr, A.S. Saidi, A. Banerjee and M. Nabi, 2021. Finite-time adaptive higher-order SMC for the nonlinear five DOF active magnetic bearing system. Electronics, Vol. 10. 10.3390/electronics10111333.
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  5. Naceur, F.B., A.S. Saidi, J.K. Bhutto and M.A. Mahjoub, 2021. An advanced MPPT scheme for standalone solar powered PV system using neuro-fuzzy estimator based on measured data. J. Eng. Res., Vol. 2021. 10.36909/jer.12535.
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  6. Mohana, M., A.S. Saidi, S. Alelyani, M.J. Alshayeb, S. Basha and A.E. Anqi, 2021. Small-scale solar photovoltaic power prediction for residential load in Saudi Arabia using machine learning. Energies, Vol. 14. 10.3390/en14206759.
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  7. Banerjee, A., S.M. Amrr, R. Sarkar, A.S. Saidi and M. Nabi, 2021. Communication constrained robust guidance strategy using quantized artificial time delay based control with input saturation. IET Control Theory Appl., 15: 2286-2301.
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  8. Amara, S., S. Toumi, C.B. Salah and A.S. Saidi, 2021. Improvement of techno-economic optimal sizing of a hybrid off-grid micro-grid system. Energy, Vol. 233. 10.1016/j.energy.2021.121166.
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  9. Slimene, M.B., A.S. Saidi and M.A. Khlifi, 2020. Estimation of hydropower synchronous generator parameters through field simulations of modified standard tests. J. Electr. Eng. Technol., 16: 91-99.
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  10. Saidi, A.S., 2020. Investigation of structural voltage stability in tunisian distribution networks integrating large-scale solar photovoltaic power plant. Int. J. Bifurcation Chaos, Vol. 30. 10.1142/s0218127420502594.
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  11. Saidi, A.S., M.B. Slimene, M.A. Khlifi, M.F. Azeem, S.A. Ahmadi and A. Draou, 2019. Analysis and study of two‐dimensional parameter bifurcation of wind power farms and composite loads. Wind Energy, 22: 1243-1259.
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  12. Saidi, A.S., 2019. A nonlinear saturation model of synchronous machines with account cross saturation. Int. J. Adv. Applied Sci., 6: 20-24.
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  13. Saidi, A.S. and W. Helmy, 2018. Artificial neural network–aided technique for low voltage ride-through wind turbines for controlling the dynamic behavior under different load conditions. Wind Eng., 43: 420-440.
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  14. Abd El Aziz, S., M. Ibrahim and Y. Al-Rayif, 2017. Impact of static and dynamic load model on the low voltage ride-through of the doubly-fed induction generator wind farm. WSEAS Trans. Power Syst., Vol. 12. .
  15. Saidi, A.S., K. Ben-kilani and M. Elleuch, 2016. Impact of large scale photovoltaic generation on voltage stability in distribution networks. Eur. J. Electr. Eng., 18: 117-138.
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  16. Abdelaziz, S., B.K. Khadija and E. Mohamed, 2016. Impact of large scale photovoltaic generation on voltage stability in distribution networks. Eur. J. Elect. Eng., 18: 117-138.
  17. Bouchoucha, C., S. Abdelaziz, M.N. Mansouri and F. Mimouni, 2012. Voltage stability: Effect of the load and contingency ranking. Trends Applied Sci. Res., 7: 792-812.
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  18. Bouchoucha, C., S. Abdelaziz, M.N. Mansouri and F. Mimouni, 2012. Effect of dynamic and static load in the voltage stability. Int. Rev. Modell. Simul., 5: 2214-2227.
  19. Abdelaziz, S. and B. Chokri, 2012. Effect of static and dynamic load model on dynamic stability of distribution network with fixed and variable speed wind farm: A bifurcation analysis. Int. Rev. Modell. Simul., 5: 1679-1689.
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  20. Abdelaziz, S., B.K. Khadija, B. Chokri and E. Mohamed, 2011. Voltage regulation and dynamic performance of the tunisian power system with wind power penetration. Trends Applied Sci. Res., 6: 813-831.
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