ThS. Trần Anh Tuấn

Trợ lý nghiên cứu viên Khoa Điện – Điện tử
Email: trananhtuan1@tdtu.edu.vn
Phòng làm việc: M304

Quá trình học tập:

  • Kỹ sư, Trường Đại học Tôn Đức Thắng, Việt Nam, 2014 - 2019.
  • Thạc sĩ, Trường Đại học Tôn Đức Thắng, Việt Nam, 2019 - 2021.

Quá trình hoạt động chuyên môn:

  • 06/2022 – 06/2024: Làm việc tại Công ty cổ phần FAST Adjuster.
  • 07/2024 – nay: Trợ lý nghiên cứu viên tại Trường Đại học Tôn Đức Thắng, TP. Hồ Chí Minh.

Lĩnh vực nghiên cứu:

Điều khiển tần số và điện áp trong hệ thống điện; Điều khiển trượt; Điều khiển tối ưu; Bộ quan sát.

CÔNG BỐ KHOA HỌC

A. Tạp chí (*Tác giả gửi bài)

[1] Huynh, V. V., Naqvi, S, Nguyen L-H. B, Tran, A. T., V., Shim, J. W., & Ton, D. D. (2025). Robust Super-Twisting Algorithm-Based SinglePhase Sliding Mode Frequency Controller in Power Systems Integrating Wind Turbines and Energy Storage Systems. Scientific Reports.

[2] Tran, A. T., Van Huynh, V., Shim, J. W., & Lim, C. P. (2025). Optimized Sliding Mode Frequency Controller for Power Systems Integrated Energy Storage System With Droop Control. IEEE Access, 13, 43749-43766.

[3] Tran, D. T., Tran, A. T. (*), Van Huynh, V., & Do, T. D. (2025). Decentralized Frequency Regulation by Using Novel PID Sliding Mode Structure in Multi-area Power Systems with Hydropower Turbines. IEEE Access.

[4] Tuan, D. H., Tran, A. T., Huynh, V. V., Duy, V. H., & Nhan, N. H. K. (2024). Advanced Sliding Mode Design for Optimal Automatic Generation Control in Multi-Area Multi-Source Power System Considering HVDC Link. Processes, 12(11), 2426.

[5] Tran, A. T., & Van Huynh, V. (2024). Apply Honey Badger Algorithm to double integral sliding mode observer for stable load frequency in multi-area power system. Journal of Advanced Engineering and Computation, 8(3), 187-197..

[6] Tran, A. T., Duong, M. P., Pham, N. T., & Shim, J. W. (2024). Enhanced sliding mode controller design via meta‐heuristic algorithm for robust and stable load frequency control in multi‐area power systems. IET Generation, Transmission & Distribution, 18(3), 460-478.

[7] Tran, A. T., Pham, N. T., Van Huynh, V., & Dang, D. N. M. (2023). Stabilizing and enhancing frequency control of power system using decentralized observer-based sliding mode control. Journal of Control, Automation and Electrical Systems, 34(3), 541-553.

[8] Lai, H. B., Tran, A. T., Huynh, V., Amaefule, E. N., Tran, P. T., & Phan, V. D. (2022). Optimal linear quadratic Gaussian control based frequency regulation with communication delays in power system. International Journal of Electrical & Computer Engineering (2088-8708), 12(1).

[9] Van Huynh, V., Tran, P. T., Tran, T. A., Tuan, D. H., & Phan, V. D. (2021). Extended state observer based load frequency controller for three area interconnected power system. TELKOMNIKA, 19(3), 1001-1009.

[10] Tran, A. T., Tran, P. T., & Van Huynh, V. (2021). Load Frequency Control for Power System using Generalized Extended State Observer. Journal of Advanced Engineering and Computation, 5(1), 1-18.

[11] Tran, A. T., Le Ngoc Minh, B., Tran, P. T., Huynh, V. V., Phan, V. D., Pham, V. T., & Nguyen, T. M. (2021). Adaptive integral second‐order sliding mode control design for load frequency control of large‐scale power system with communication delays. Complexity, 2021(1), 5564184.

[12] Tran, A. T., Minh, B. L. N., Huynh, V. V., Tran, P. T., Amaefule, E. N., Phan, V. D., & Nguyen, T. M. (2021). Load frequency regulator in interconnected power system using second-order sliding mode control combined with state estimator. Energies, 14(4), 863.

[13] Huynh, V. V., Minh, B. L. N., Amaefule, E. N., Tran, A. T., & Tran, P. T. (2021). Highly robust observer sliding mode based frequency control for multi area power systems with renewable power plants. Electronics, 10(3), 274.

[14] Huynh, V. V., Minh, B. L. N., Amaefule, E. N., Tran, A. T., Tran, P. T., Phan, V. D., ... & Nguyen, T. M. (2021). Load frequency control for multi-area power plants with integrated wind resources. Applied Sciences, 11(7), 3051.

[15] Van Huynh, V., Tran, P. T., Minh, B. L. N., Tran, A. T., Tuan, D. H., Nguyen, T. M., & Vu, P. T. (2020). New second-order sliding mode control design for load frequency control of a power system. Energies, 13(24), 1-21.

B. Hội nghị

[1] Tran, A. T, Dao, H. T, Huynh, V. V &  Boopathi, D. Robust Frequency Regulation for Thermal and Hydro Power Plants Based on Sliding Mode Controller Application Proceedings of 9th International Conference on Advanced Engineering – Theory and Applications (AETA 2024).

[2] Dao, H. T, Tran, A. T, Huynh, V. V, Vo, H. D, & Nguyen, H. K. N. Design of Adaptive Sliding Mode Combined Extend Observer Strategy with Automatic Load Frequency Regulator. Proceedings of 9th International Conference on Advanced Engineering – Theory and Applications (AETA 2024).