Dr. Amir Eisapour Moarref - Electrical Engineering - Best Researcher Award

Iran University of Science and Technology - Iran

Author Profile

🎓 Early academic pursuits

Amir Eisapour Moarref embarked on his academic journey in electrical engineering with a strong foundation laid during his bachelor's degree at shahid chamran university, iran, where he graduated with honors in 2013, securing the third rank. his passion for power systems motivated him to pursue a master's degree at shahid beheshti university, where he specialized in voltage and frequency regulation in ac microgrids. completing his m.sc. with top honors in 2015, ranking first in his class, amir continued to expand his expertise by undertaking a ph.d. in electrical engineering-power at the iran university of science and technology. his doctoral research, completed in 2021, focused on power control in hybrid ac/dc microgrids, particularly through the utilization of bidirectional interlinking converters, reflecting his deep interest in modern and sustainable energy systems.

🏛️ Professional endeavors

Amir's professional path is marked by his commitment to both research and education. from 2018 to 2023, he served as a research assistant at the iran university of science and technology, where he mentored graduate students and contributed to various scientific publications. his involvement extended beyond his own research as he provided valuable guidance in the preparation of scholarly papers. complementing his research, amir has also shown dedication to teaching, acting as a teaching assistant in both undergraduate and graduate-level courses. his teaching portfolio includes subjects such as renewable energy systems, electrical power system dynamics, linear control systems, and power electronics, which have strengthened his practical and theoretical expertise in electrical power systems.

⚡ Contributions and research focus

Amir Eisapour Moarref has made notable contributions to the advancement of hybrid microgrid systems, focusing on power sharing, control strategies, and system optimization. his work Electrical Engineering addresses critical challenges in voltage and frequency regulation, fault resilience, and the efficient integration of electric vehicles into microgrid networks. amir’s research is distinguished by innovative approaches to harmonics-based multidimensional droop control, as well as the development of optimization algorithms such as hybrid big bang-big crunch and symbiotic organisms search methods. these contributions provide vital solutions for the stability and sustainability of modern microgrids, establishing his expertise in smart power systems and renewable energy integration.

🏆 Accolades and recognition

Amir’s academic excellence has been consistently acknowledged through prestigious honors at every stage of his education. he graduated with honors and achieved top ranks in his bachelor's, master's, and doctoral studies, demonstrating his unwavering commitment to scholarly success. his ph.d. graduation in 2021 with the second rank further emphasizes his dedication and high- Electrical Engineering level understanding of electrical power systems. his active participation in international conferences and publications in reputable journals has also earned him recognition within the global research community.

🌍 Impact and influence

Through his innovative research on hybrid microgrids and renewable energy management, amir eisapour moarref has contributed to the ongoing development of smart grid technologies that address global energy challenges. his findings on power control, fault management, and optimization strategies are highly relevant to the future of energy systems seeking resilience and Electrical Engineering efficiency. by mentoring students and serving as a voluntary reviewer for academic journals, amir has fostered knowledge dissemination and encouraged excellence in the next generation of electrical engineers.

🔬 Legacy and future contributions

Amir aims to continue his impactful work in the field of electrical power systems by focusing on advanced control strategies for hybrid microgrids, sustainable energy solutions, and the integration of electric vehicles. he envisions contributing to global energy transitions by developing robust, scalable technologies that support renewable energy penetration and enhance grid reliability. with his rich academic and research background, amir is well-positioned to lead projects that shape the future of smart and autonomous power networks worldwide.

Notable Publications

Title: Voltage and frequency regulation in autonomous microgrids using Hybrid Big Bang-Big Crunch algorithm
Author(s): M. Sedighizadeh, M. Esmaili, A. Eisapour-Moarref
Journal: Applied Soft Computing, 2017
Title: Power sharing in hybrid microgrids using a harmonic-based multidimensional droop
Author(s): A. Eisapour-Moarref, M. Kalantar, M. Esmaili
Journal: IEEE Transactions on Industrial Informatics, 2019
Title: The imperialist competitive algorithm for optimal multi-objective location and sizing of DSTATCOM in distribution systems considering loads uncertainty
Author(s): M. Sedighizadeh, A. Eisapour-Moarref
Journal: INAE Letters, 2017
Title: Multi-objective voltage and frequency regulation in autonomous microgrids using Pareto-based Big Bang-Big Crunch algorithm
Author(s): A.E. Moarref, M. Sedighizadeh, M. Esmaili
Journal: Control Engineering Practice, 2016
Title: Control strategy resilient to unbalanced faults for interlinking converters in hybrid microgrids
Author(s): A. Eisapour-Moarref, M. Kalantar, M. Esmaili
Journal: International Journal of Electrical Power & Energy Systems, 2020

Early academic pursuits 🎓

Shekha Rai's academic journey began with his schooling at Donbosco High School and Kendriya Vidyalaya ONGC, Jorhat, where he achieved impressive academic results. His passion for electrical engineering led him to pursue a Bachelor of Technology (B.Tech.) in Electrical Engineering from Jorhat Engineering College, where he ranked second in his class with a percentage of 74.10%. This laid the foundation for his future endeavors in power systems. He went on to earn a Doctor of Philosophy (Ph.D.) in Power Systems from the Indian Institute of Technology (IIT) Guwahati, with a focus on "Robust estimation of low-frequency modes for on-line stability monitoring of power systems," under the guidance of Dr. Praveen Tripathy and Dr. Sisir Kumar Nayak. His work at IIT Guwahati earned him a CGPA of 8.83, marking a significant academic achievement in the field of electrical engineering.

Professional endeavors 🏫

Dr. Shekha Rai’s professional career spans several prestigious academic institutions in India. He has served as an Assistant Professor at the Department of Electrical Engineering at NIT Rourkela since March 2020, where he continues to inspire and educate the next generation of engineers. Prior to this, he held assistant professor positions at Jorhat Engineering College and NIT Nagaland, gaining valuable teaching experience. His work across these institutions has made significant contributions to the development of students and research in the field of electrical engineering and power systems.

Contributions and research focus 🔬

Dr. Rai’s research is deeply focused on power systems, particularly in the areas of wide-area monitoring and control, as well as power system dynamics and stability. His doctoral research centered on robust methods for real-time monitoring of power system stability using low-frequency modes. By developing innovative Power system techniques for on-line stability monitoring, he has contributed to improving the reliability and security of power grids. Dr. Rai’s work continues to push the boundaries of power system analysis, contributing to enhanced grid stability and control systems, which are vital in today's increasingly complex energy landscape.

Accolades and recognition 🏅

Dr. Shekha Rai has earned recognition for his outstanding research and teaching in the field of electrical engineering. His academic excellence, evident from his high Power system CGPA during his Ph.D. and his first-class B.Tech. achievements, reflects his commitment to the field. Furthermore, his research contributions have been well-regarded by his peers and have led to collaborations with prominent institutions. His roles as a mentor and educator at top engineering colleges, including NIT Rourkela, NIT Nagaland, and Jorhat Engineering College, have further solidified his position as a respected academic in the field.

Impact and influence 🌍

Dr. Rai’s work has had a significant impact on the power systems domain, particularly in the area of stability and monitoring. His research plays a crucial role in Power system ensuring the safe and efficient operation of electrical grids, especially in large, interconnected systems. His contributions have influenced both academic research and practical applications, particularly in grid management and stability monitoring. Through his innovative techniques, Dr. Rai has helped advance the understanding and control of power systems, with broad implications for national and global energy infrastructure.

Legacy and future contributions 🔮

As a passionate educator and researcher, Dr. Shekha Rai is laying the groundwork for a lasting legacy in the field of power systems. His contributions to the advancement of stability monitoring techniques will continue to shape the future of power system operations and research. Moving forward, he is poised to explore new frontiers in energy systems, particularly in the integration of renewable energy sources and the optimization of grid stability. His future work promises to address the emerging challenges in power systems, making a profound impact on energy efficiency and sustainability for generations to come.

Notable Publications

Title: Using sparsity to estimate oscillatory mode from ambient data
Authors: S. Rai, P. Tripathy, S.K. Nayak
Journal: Sādhanā, 44(4), 90 (2019)
Title: A robust WKNN-TLS-ESPRIT algorithm for identification of electromechanical oscillation modes utilizing WAMS
Author: S. Rai
Journal: Sādhanā, 45(1), 265 (2020)
Title: A nonlinear filtering technique along with RD and TLS-ESPRIT for mode identification of ambient data
Authors: S. Rai, S.K. Nayak, P. Tripathy
Conference: 2015 Annual IEEE India Conference (INDICON), 1-6 (2015)
Title: Model order estimation for low-frequency oscillations in power systems by an advanced K-mean clustering approach
Authors: M. Sahoo, J. Sandeep, S. Rai
Journal: Electric Power Systems Research, 224, 109676 (2023)
Title: A K-Medoids-LSTM Based Technique for Electromechanical Modes Identification for Synchrophasor Applications
Authors: M. Sahoo, A. Roy, S. Rai
Conference: 2023 International Conference on Power, Instrumentation, Control and … (2023)