Prof Dr. Ziyodulla Yusupov | Electrical power systems | Best Researcher Award
Professor at Karabuk University, Turkey
Dr. Ziyodulla Yusupov is a Professor at the Electric-Electronics Engineering Department, Karabuk University, Turkey. With over two decades of experience in electrical engineering, his expertise spans the control of electrical power systems, microgrids, smart grids, and multi-agent systems. Dr. Yusupov holds a PhD in Electrical Engineering from the Institute of Power Engineering & Automation of Uzbekistan Academy of Sciences and has a notable background in both academic and practical settings. His work integrates advanced control strategies and energy optimization to address contemporary challenges in electrical engineering.
Author Metrics
Dr. Yusupov’s publications have made significant contributions to the field of electrical engineering, evidenced by a robust citation record and impact in academic circles. His research articles, featured in reputable journals such as Applied Solar Energy and Journal Europeen des Systemes Automatise, reflect his influence on topics ranging from renewable energy to smart grid technologies. The metrics include a high citation count and a growing h-index, highlighting the reach and relevance of his research.
Dr. Ziyodulla Yusupov’s research impact is well-documented through various citation metrics. He has accrued a total of 414 citations, with 411 citations in recent years, reflecting the ongoing relevance of his work. His h-index stands at 13, indicating that 13 of his publications have been cited at least 13 times each, demonstrating both the quantity and impact of his research contributions. Additionally, his i10-index is 16, signifying that he has 16 publications with at least 10 citations each. These metrics underscore Dr. Yusupov’s significant influence in the field of electrical engineering.
Education
Dr. Yusupov’s academic journey began with a BSc and MSc in Electrical-Electronics Engineering from Tashkent State Technical University, Uzbekistan. He furthered his expertise by earning a PhD in Electrical Engineering (Driver Systems) from the Institute of Power Engineering & Automation of Uzbekistan Academy of Sciences in 2010. His educational background provides a solid foundation in both theoretical and practical aspects of electrical engineering, supporting his current role as a leading academic and researcher.
Research Focus
Dr. Yusupov’s research focuses on the optimization and control of electrical power systems, with a particular emphasis on microgrids and smart grids. His work aims to develop advanced control strategies and innovative solutions for enhancing energy efficiency and reliability in electrical systems. Current projects involve exploring hydrogen fuel cell systems, superconducting magnetic energy storage, and techno-economic analyses of microgrids. His research contributes to both theoretical advancements and practical applications in sustainable energy systems.
Professional Journey
Dr. Yusupov’s professional journey encompasses a blend of academic and industry roles. He has served as a Professor at Karabuk University since 2022, following an extensive tenure as an Associate Professor at both Karabuk University and the Institute of Power Engineering & Automation in Uzbekistan. His career also includes significant industry experience as a Project Engineer and Electrical Engineer with companies such as PAC Group and Washington Group Inc., where he oversaw critical installations and maintenance of electrical systems.
Honors & Awards
Dr. Yusupov has been recognized for his contributions to electrical engineering through various honors and awards. These accolades reflect his impact on research and practical applications in the field. Specific awards and recognitions include grants from prestigious research agencies and accolades for excellence in teaching and research, underscoring his commitment to advancing the field of electrical engineering.
Publications Noted & Contributions
Dr. Yusupov’s notable publications include influential articles in leading journals such as Journal Europeen des Systemes Automatise and Applied Solar Energy. His contributions cover a wide range of topics, including optimization approaches for hydrogen fuel cells, control strategies for wind turbines, and techno-economic analyses of microgrids. These publications highlight his role in advancing knowledge and driving innovation in electrical engineering.
Book Chapters
Intelligent Processing Time Characteristics of the Flow of the Impulse Component of the Train Shunt Resistance
2024 | Book Chapter
DOI: 10.1007/978-3-031-53488-1_15
Contributors: Azamat Sadikov, Nazirjon Aripov, Ziyodulla Yusupov, Oleg Vaisov
This chapter explores the time characteristics of impulse components in train shunt resistance, providing insights into intelligent processing methodologies.
Model of Circuits of Anti-repeat Relays of Train Routes
2024 | Book Chapter
DOI: 10.1007/978-3-031-51521-7_21
Contributors: Ziyodulla Yusupov, Asadulla Azizov, Elnara Ametova, Saidazim Ubaydullaev
This chapter presents a model for anti-repeat relay circuits used in train routes, focusing on improving reliability and safety in rail systems.
Modeling and Control of Decentralized Microgrid Based on Renewable Energy and Electric Vehicle Charging Station
2024 | Book Chapter
DOI: 10.1007/978-3-031-53488-1_11
Contributors: Ziyodulla Yusupov, Nuri Almagrahi, Elaheh Yaghoubi, Elnaz Yaghoubi, Adib Habbal, Dilshod Kodirov
This chapter discusses the modeling and control of decentralized microgrids, incorporating renewable energy sources and electric vehicle charging stations to enhance grid efficiency and sustainability.
Journal Articles
Grey Wolf Optimized Economic Load Dispatch Including Battery Storage In Microgrid
2024-02-29 | Politeknik Dergisi
DOI: 10.2339/politeknik.886712
Contributors: Salem Faraj Aljribi, Ziyodulla Yusupov
This article focuses on optimizing economic load dispatch in microgrids with the integration of battery storage using the Grey Wolf optimization algorithm.
Technical Challenges and Optimization of Superconducting Magnetic Energy Storage in Electrical Power Systems
2023-09 | e-Prime – Advances in Electrical Engineering, Electronics and Energy
DOI: 10.1016/j.prime.2023.100223
Contributors: Mohamed Khaleel, Ziyodulla Yusupov, Yasser Nassar, Hala J El-Khozondar, Abdussalam Ahmed, Abdulgader Alsharif
This article addresses the technical challenges and optimization strategies for superconducting magnetic energy storage systems within electrical power networks.
Research Timeline
Dr. Yusupov’s research timeline reflects a continuous evolution in focus and scope. Key milestones include his early work on adjustable frequency drives and energy-saving control systems, progressing to recent projects on superconducting magnetic energy storage and sustainable renewable energy systems. This timeline demonstrates his sustained engagement with cutting-edge technologies and methodologies in electrical engineering.
Collaborations and Projects
Dr. Yusupov has collaborated with various institutions and researchers, contributing to several high-impact projects. Notable collaborations include work with the Innovative Development Agency of Uzbekistan and international research partners. His projects encompass areas such as the development of control systems for electric drives and optimization of energy storage solutions, showcasing his ability to work across disciplines and contribute to significant advancements in the field.
Strengths of the Best Researcher Award
Innovative Research Focus: Dr. Yusupov’s work on optimizing and controlling electrical power systems, especially in areas like microgrids and smart grids, demonstrates a forward-thinking approach. His research on cutting-edge topics like hydrogen fuel cells and superconducting magnetic energy storage highlights his ability to address contemporary and future energy challenges.
Significant Impact and Influence: With a total of 414 citations and a high h-index of 13, Dr. Yusupov’s research has made a substantial impact in the field of electrical engineering. His contributions to major journals and conferences illustrate his work’s relevance and importance.
Diverse and High-Quality Publications: His publications span a broad range of topics, from control strategies for wind turbines to techno-economic analyses of microgrids. This variety not only underscores his expertise but also his ability to contribute valuable insights across different areas of electrical engineering.
Strong Educational Foundation: Dr. Yusupov’s extensive academic background, including his PhD from the Institute of Power Engineering & Automation of Uzbekistan Academy of Sciences, provides a solid theoretical and practical foundation for his research. This background supports his innovative approaches and enhances the credibility of his findings.
Professional Experience: His extensive career includes both academic roles and industry experience. This blend of theoretical and practical knowledge enriches his research and enables him to apply advanced control strategies and energy optimization techniques effectively.
Areas for Improvement
Broader Collaboration Networks: While Dr. Yusupov has collaborated with various institutions and researchers, expanding his network to include more international and cross-disciplinary collaborations could further enhance the scope and impact of his research.
Increased Focus on Emerging Technologies: Although his current research is impactful, incorporating more focus on emerging technologies such as artificial intelligence in energy systems or blockchain for energy transactions could position him at the forefront of future developments in electrical engineering.
Public Engagement and Dissemination: Enhancing efforts to engage with the public and industry through more accessible formats such as blogs, webinars, or public lectures could help in disseminating his research findings to a broader audience and increase societal impact.
Interdisciplinary Research Integration: There is potential to integrate his research with other disciplines such as environmental science or urban planning. This could lead to more holistic solutions for energy systems and sustainability.
Enhanced Focus on Practical Applications: While his theoretical contributions are substantial, a greater emphasis on translating research into practical applications and real-world solutions could further increase the impact of his work.
Conclusion
Dr. Ziyodulla Yusupov’s receipt of the Best Researcher Award is well-deserved, reflecting his significant contributions to electrical engineering, particularly in the areas of microgrids, smart grids, and advanced control strategies. His impressive citation metrics and extensive publication record attest to his influence and leadership in the field. However, there is room for growth in expanding collaboration networks, focusing on emerging technologies, enhancing public engagement, integrating interdisciplinary approaches, and translating research into practical applications. Addressing these areas could further amplify the impact of his work and maintain his position as a leading researcher in electrical engineering.