Milkias Berhanu Tuka | Electrical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Milkias Berhanu Tuka | Electrical Engineering | Best Researcher Award

Dr, Addis Ababa Science and Technology University, Ethiopia

Milkias Berhanu Tuka (Ph.D.) is an Associate Professor at Addis Ababa Science and Technology University (AASTU) in Ethiopia. With extensive academic and professional experience, he specializes in Electrical and Computer Engineering. Dr. Tuka holds a Ph.D. in Electrical Engineering, with a focus on renewable energy and power systems. He has served in various leadership roles, including as a Special Assistant to the Vice President for Academic Affairs and Associate Head of the Electrical and Computer Engineering Department. Dr. Tuka is a recognized leader in both academia and industry, collaborating internationally with institutions like Otto-von-Guericke University (Germany). His work emphasizes sustainable energy solutions and electrical engineering innovations. 🌍⚑

Profile

Scopus

Strengths for the Award

  1. Extensive Academic and Research Background: Dr. Milkias Berhanu Tuka demonstrates an impressive academic career with significant contributions in the fields of Electrical Engineering, particularly in power systems, renewable energy, and power electronics. His expertise in renewable energies, electrical machines, power electronics, and drives has led to substantial academic achievements, including publishing numerous papers in Scientific Reports and other reputable journals.
  2. International Collaboration and Recognition: His involvement in international projects and partnerships, such as his research with Otto-von-Guericke University in Germany, highlights his capacity for cross-border collaboration. This is evident from his contributions to research and consultancy in projects like the SASCS for DTH under the Europe-Africa Research and Innovation call on Renewable Energy.
  3. Leadership and Influence in Academia: Dr. Tuka has shown notable leadership within academic institutions. His roles as an Associate Professor, Head of the Electrical and Computer Engineering Department, and his position as the Vice President’s Special Assistant for Academic Affairs at Addis Ababa Science and Technology University (AASTU) showcase his organizational and managerial abilities. These positions highlight his responsibility in steering academic programs, overseeing curriculum developments, and ensuring high standards in teaching and research.
  4. Active Contribution to Research Grants and Projects: He has been actively involved in securing and managing multiple research projects and external grants, such as Solar Power System Design, Wind Energy Forecasting, and Consultancy services for the Ethiopian Water Technology Institute. These projects demonstrate his practical application of research and his capacity to drive forward both theoretical and applied research.
  5. Supervision and Mentorship: Dr. Tuka has contributed to the academic development of numerous students, particularly in the supervision of MSc theses and PhD students, helping them to navigate complex research topics and bringing innovative ideas to the forefront.
  6. Diverse Skills and Certifications: His wide array of skills and certifications, such as the completion of Nanodegree Programs in Data Analysis and Programming Fundamentals, along with his recognition from prestigious institutions (e.g., Mandela Washington Fellowship and Honorary Lifetime Membership to International Davis), shows his commitment to lifelong learning and professional growth.

Areas for Improvement

  1. Broader Publication and Citations Reach: While Dr. Tuka has made significant contributions to journals like Scientific Reports, expanding his impact through more high-visibility, high-impact journals, and achieving higher citation counts could further solidify his position as a global thought leader in his field.
  2. Focus on Multidisciplinary Collaboration: Although his work has had a strong focus on electrical engineering and renewable energy, expanding collaborations across multidisciplinary fields (e.g., integrating AI or machine learning into energy systems) could further diversify his research impact and open up new avenues for groundbreaking studies.
  3. Increased Public Engagement: Engaging in more public-facing activities, such as offering talks at global conferences, media interviews, or even online platforms to discuss renewable energy issues or innovations in power systems, could increase his outreach and influence in shaping global energy policy or practices.
  4. Diversifying Research Funding: While Dr. Tuka has excelled in obtaining research grants, diversifying the sources of funding, particularly from international organizations or the private sector, could support even larger-scale projects and increase the impact of his research.

Education

Dr. Tuka obtained his Ph.D. in Electrical Engineering from Adama Science & Technology University and Otto-von-Guericke University, focusing on power quality in wind energy systems. He holds an MSc in Electrical Engineering with a focus on power systems from Adama Science & Technology University. Additionally, he earned a Bachelor’s degree in Electrical-Electronics Technology. Dr. Tuka’s education combines rigorous theoretical learning with hands-on research, particularly in renewable energy solutions and electrical systems optimization. πŸŽ“πŸ”‹

Experience

Dr. Tuka has over 15 years of experience in academia and engineering. He is currently an Associate Professor and Special Assistant at AASTU, where he also serves as the Secretary of the Academic Staff Affairs Committee. Previously, he was an Associate Head of the ECE Department at Adama Science and Technology University (ASTU) and a power expert for the ASTU-Mekele University Joint Venture on the Adama-II Wind Power Project. Dr. Tuka has also held leadership roles in various educational projects and is a consultant for renewable energy and power systems. βš™οΈπŸŒž

Awards and Honors

Dr. Tuka has received numerous accolades throughout his career, including an Honorary Lifetime Membership from International Davis, U.S., and recognition for his professional contributions to the Department of Electrical and Computer Engineering at ASTU. He is also an awardee of the Mandela Washington Fellowship and has participated in prestigious training programs like the Enel Foundation’s Micro-grid Academy and Open Africa Power. πŸ…πŸŒ

Research Focus

Dr. Tuka’s research centers on renewable energy, power systems, electrical machines, and power electronics. His work focuses on optimizing renewable energy integration into the power grid, improving power quality, and designing sustainable energy solutions. Current projects include wind energy forecasting using deep learning, solar power systems, and smart grid technologies. His research aims to provide innovative solutions for energy challenges in Africa and beyond, contributing to the global energy transition. πŸŒΏπŸ”Œ

Publication Top Notes

  1. A comparative ensemble approach to bedload prediction using metaheuristic machine learning πŸŒπŸ“Š
  2. Design and performance evaluation of a multi-load and multi-source DC-DC converter for electric vehicle systems βš‘πŸš—
  3. Cable dimension determination using Finite Element Method for gas insulated cables βš‘πŸ”§
  4. Hybrid modeling approach for precise energy estimation based on temperature variations πŸŒžπŸ“
  5. Maiden application of optimization for load frequency control in microgrids with renewables βš‘πŸ”‹
  6. Design of a universal converter for microgrid applications using dynamic programming πŸŒπŸ”„
  7. Lyapunov-based neural network model predictive control for energy systems βš™οΈπŸŒ
  8. High-efficiency poly-input boost converter for energy storage and EV applications πŸ”‹πŸš™
  9. Robust load-frequency control for islanded microgrids using 1PD-PID controllers βš‘πŸ”§
  10. Techno-economic analysis of hybrid renewable energy solutions in Cameroon ⚑🌍

Conclusion

Dr. Milkias Berhanu Tuka is undoubtedly a strong candidate for the Best Researcher Award. His academic credentials, research expertise, and leadership in both academia and various research projects highlight his significant contributions to the field of Electrical Engineering. His publications, international collaborations, and impact on both education and research underscore his excellence. With his dedication to innovation and research excellence, Dr. Tuka’s future contributions will likely continue to have a profound impact on the academic community, particularly in renewable energy and power systems, making him a highly deserving candidate for this award. To further enhance his global influence, focusing on broader publication reach, fostering interdisciplinary research, and engaging more publicly would help him elevate his already impressive career.

 

 

Ebrahim Babaei | Electrical Engineering | Best Researcher Award

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Prof Dr Ebrahim Babaei | Electrical Engineering | Best Researcher Award

Professor, University of Tabriz, Iran

Prof. Ebrahim Babaei is a prominent academic and researcher in electrical engineering, recognized as one of the top 1% of scientists globally since 2015. He is a professor at the University of Tabriz, Iran, where he specializes in power engineering and power electronics. With over 17 years of teaching and research experience, he has held leadership roles, including Editor-in-Chief of the Journal of Electrical Engineering. He has contributed significantly to the field through numerous publications, conferences, and collaborations, also serving as an associate editor for various prestigious journals. Prof. Babaei’s expertise spans power electronic converters, renewable energy, and smart grids, earning him international recognition for his research excellence and impact.

Profile

Google Scholar

Strengths for the Award

Prof. Ebrahim Babaei is an outstanding researcher with remarkable contributions to the field of electrical engineering, specifically in power electronics and renewable energy systems. Several key strengths support his candidacy for the Best Researcher Award:

  1. Top One Percent of World Scientists and Academics
    Prof. Babaei has been consistently recognized as being in the top 1% of the world’s scientists and academics (since 2015), according to Thomson Reuters (ISI). This recognition is a clear indicator of his global impact and the significance of his research.
  2. Extensive Research Contributions
    His research primarily focuses on power electronic converters, including matrix converters, multilevel inverters, Z-source inverters, resonance converters, and related fields in power systems. His work has resulted in numerous influential papers, many of which are highly cited in top-tier journals such as IEEE Transactions on Power Electronics, IEEE Transactions on Industrial Electronics, and Energy Conversion and Management.

    • Highly Cited Papers: Some of Prof. Babaei’s papers, like those on cascade multilevel converter topologies and reduced switch inverter designs, have over 700 citations, demonstrating their importance in the field.
    • Innovative Topologies: His development of novel inverter topologies and multilevel converter designs has advanced the design and efficiency of power electronics, which is critical for applications in renewable energy systems, electric vehicles, and more.
  3. Awards and Recognition
    Prof. Babaei has received numerous prestigious awards and honors, including:

    • Best Paper Awards from renowned conferences such as IEEE International Conference on Power Electronics, Drive Systems, and Technologies (PEDSTC).
    • Outstanding Reviewer Awards for IEEE Transactions on Power Electronics.
    • Multiple Distinguished Researcher Awards at his home institution, University of Tabriz.
    • Recognition from international bodies for his contributions to the field of electrical engineering and technology development.
  4. Leadership in Research and Editorial Roles
    • Editor-in-Chief of the Journal of Electrical Engineering at the University of Tabriz.
    • Associate Editor for several prestigious IEEE journals and international publications, showing his leadership in shaping the direction of research in his field.
    • Extensive collaborations with international research institutions, notably as a visiting professor at universities in Italy and Cyprus.
  5. Research Impact and Practical Applications
    Prof. Babaei’s work is not only theoretical but also has significant practical applications, especially in renewable energy systems, grid integration, and power quality improvement. For instance, his work on dynamic voltage restorers and voltage disturbance mitigation has applications in industrial and utility systems.
  6. Collaborative Research Environment
    Prof. Babaei’s collaborative spirit is reflected in his extensive international network and joint research projects with leading institutions worldwide. This not only strengthens his own work but also contributes to global advancements in power engineering.

Areas for Improvement

While Prof. Babaei’s profile is exceptionally strong, there are a few areas where he could potentially focus on to further enhance his research and contributions:

  1. Expansion of Research into Emerging Technologies
    Prof. Babaei has already worked on a broad range of power electronics applications. However, exploring emerging fields such as Artificial Intelligence (AI) for power system optimization, smart grids, and advanced energy storage systems could provide fresh opportunities for research that align with current and future industry needs.
  2. Broader Impact on Industry
    While Prof. Babaei’s research is academically rigorous and widely cited, increasing its impact on industry applications, especially in terms of commercializing innovative technologies like smart inverters or energy storage solutions, could further elevate his influence. Collaboration with industry partners and developing scalable technologies could bridge the gap between research and real-world applications.
  3. Increased Interdisciplinary Collaboration
    There is an opportunity to further broaden the scope of his research by collaborating with other interdisciplinary areas, such as IoT in power systems, cybersecurity in electrical grids, and sustainable energy solutions. This would open up new avenues of research with societal and environmental benefits.

Education

Prof. Babaei’s educational journey includes a B.Sc. in Electronics Engineering from the University of Tabriz (1993), followed by an M.Sc. in Electrical Engineering (2001), and a Ph.D. in Electrical Engineering (2007) from the same institution. His academic growth reflects a commitment to advancing electrical engineering, particularly in the field of power electronics. His Ph.D. focused on innovative control methods for matrix converters, setting the foundation for his future groundbreaking research in power systems and converters. His education has been complemented by various honorary distinctions, including top honors in each degree he earned.

Experience

Prof. Babaei’s academic career began in 2007 as an Assistant Professor in Electrical Engineering at the University of Tabriz. By 2011, he was promoted to Associate Professor, and in 2015, he became a Full Professor. His leadership extends beyond teaching, as he served as Head of the Department of Power Engineering (2010–2015) and managed various university committees. Prof. Babaei’s experience also includes international academic collaborations, notably as a Visiting Professor at the University of L’Aquila, Italy (2016), and Near East University, Cyprus (2017–Present). His contributions to scientific committees and journal editorial roles highlight his dedication to advancing the field on a global scale.

Awards and Honors

Prof. Babaei has received numerous prestigious awards throughout his career. He has been consistently recognized as one of the world’s top 1% scientists by Thomson Reuters (ISI) from 2015–2023. His accolades include the Best Paper Award at international conferences such as ICEMS (2007) and IEEE RTUCON (2018, 2021), as well as the Highly Cited Researcher Award (2016). In 2021, he was awarded Distinguished Researcher honors from both the University of Tabriz and Near East University, Cyprus. His recognition extends to the national level, where he has been named Distinguished Researcher of Iran in the field of Engineering by the Ministry of Science in 2022.

Research Focus

Prof. Babaei’s research focuses on the analysis, modeling, design, and control of power electronic converters, including dc/dc, ac/ac, and multilevel inverters. He is particularly interested in matrix converters, resonance converters, and renewable energy systems. His work also spans the design and control of FACTS devices and power system dynamics. Prof. Babaei’s innovations in reducing the number of components in power electronic circuits have been groundbreaking. His interdisciplinary research also extends to renewable energy integration and improving power system stability, making him a key contributor to advancements in smart grids and sustainable energy systems.

Publications

  1. A Cascade Multilevel Converter Topology with Reduced Number of Switches
  2. New Cascaded Multilevel Inverter Topology with Minimum Number of Switches
  3. A New Multilevel Converter Topology with Reduced Number of Power Electronic Components
  4. A Single-Phase Cascaded Multilevel Inverter Based on a New Basic Unit with Reduced Number of Power Switches
  5. A Generalized Cascaded Multilevel Inverter Using Series Connection of Submultilevel Inverters
  6. Hybrid Multilevel Inverter Using Switched Capacitor Units
  7. A New General Topology for Cascaded Multilevel Inverters with Reduced Number of Components Based on Developed H-Bridge
  8. Reduction of DC Voltage Sources and Switches in Asymmetrical Multilevel Converters Using a Novel Topology
  9. A New Topology of Cascaded Multilevel Converters with Reduced Number of Components for High-Voltage Applications
  10. Cascaded Multilevel Inverter with Series Connection of Novel H-Bridge Basic Units

Conclusion

Prof. Ebrahim Babaei has demonstrated exceptional leadership in research and made groundbreaking contributions to the fields of power electronics and electrical engineering. His consistent recognition in the top 1% of scientists worldwide, combined with his significant academic and practical contributions, solidifies his credentials for the Best Researcher Award. The breadth and depth of his work in innovative power conversion technologies, renewable energy integration, and power system optimization are highly impactful. Given his outstanding achievements, continued excellence, and potential for future growth, Prof. Babaei is more than deserving of this prestigious recognition. With his strong publication record, numerous awards, and contributions to the global scientific community, he stands as an exemplary candidate for the Best Researcher Award.

 

 

Saibo She | Electrical Engineering | Best Researcher Award

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Dr Saibo She | Electrical Engineering | Best Researcher AwardΒ 

Ph.D Student, University of Manchester, United Kingdom

Saibo She is a dedicated researcher specializing in electromagnetic non-destructive testing and sensor design. Currently pursuing a PhD at the University of Manchester, UK, he previously earned his bachelor’s degree from Hunan University, China. With a strong foundation in electrical engineering, Saibo has actively contributed to various innovative research projects, focusing on defect detection and material evaluation. He is passionate about applying artificial intelligence to enhance diagnostic methodologies. Beyond academia, Saibo has demonstrated leadership in multiple competitions, reflecting his commitment to innovation and collaboration. His work has led to numerous publications and patents, marking him as a rising star in his field.

Profile

Scopus

Strengths for the Award

  1. Extensive Research Experience: Saibo has been involved in numerous significant research programs, focusing on advanced topics in non-destructive testing and electromagnetic evaluation. His work is supported by prestigious funding, such as the National Natural Science Foundation of China.
  2. Innovative Contributions: He has made substantial contributions to the field, as evidenced by multiple patents and published papers in reputable journals like the IEEE Sensors Journal and IEEE Transactions on Instrumentation and Measurement. His research on eddy current sensors demonstrates a blend of innovation and practical application.
  3. Strong Publication Record: Saibo has co-authored several papers with impactful findings, showcasing his ability to engage in high-quality research and contribute to scientific knowledge. His work on defect detection and materials evaluation reflects a commitment to advancing the field.
  4. Awards and Scholarships: His accolades, including the IEEE Instrumentation and Measurement Graduate Fellowship Award and various scholarships, highlight his academic excellence and recognition by peers and institutions.
  5. Leadership Experience: His role as a group leader in several competitions suggests strong leadership and teamwork skills, which are crucial for collaborative research environments.

Areas for Improvement

  1. Broader Impact: While his research is innovative, exploring avenues to increase the practical impact of his work in industrial applications could enhance his profile. Engaging with industry partners for real-world testing and implementation could broaden his research’s reach.
  2. Interdisciplinary Collaboration: Saibo could benefit from engaging with researchers from different fields to foster interdisciplinary collaboration, which can lead to new perspectives and innovative solutions to complex problems.
  3. Communication Skills: While his publication record is strong, focusing on enhancing presentation and outreach skills could help him communicate his research findings more effectively to diverse audiences, including policymakers and industry stakeholders.

Education

Saibo She is currently pursuing a PhD at the University of Manchester, UK, from September 2022 to June 2026. He previously obtained his bachelor’s degree from Hunan University, China, where he studied from September 2019 to June 2022. His education has provided him with a solid foundation in electrical engineering and materials science, equipping him with the knowledge and skills needed for advanced research. At both institutions, Saibo excelled academically, receiving several scholarships and awards that recognized his outstanding performance. His studies have been complemented by hands-on research experiences, enabling him to apply theoretical concepts to practical challenges in non-destructive testing and sensor technology. Saibo’s educational journey reflects a commitment to excellence and a strong desire to contribute to advancements in his field.

ExperienceΒ 

Saibo She has extensive research experience, starting in July 2019, where he has been involved in multiple significant projects. His work includes analyzing mechanical stress wave mechanisms in silicon carbide power electronic devices and exploring damage mechanisms using nonlinear electromagnetic acoustic emission methods. He has contributed to research funded by the National Natural Science Foundation of China and participated in projects related to non-destructive testing techniques. Saibo’s main responsibilities include the simulation and analysis of electromagnetic fields, the design and evaluation of electromagnetic sensors, and hardware circuit design. He has also constructed experimental platforms for testing and validation purposes. His involvement in these projects showcases his technical expertise and ability to tackle complex engineering problems, making him a valuable asset in the field of non-destructive evaluation.

Awards and HonorsΒ 

Saibo She has received numerous awards and honors throughout his academic career. In March 2023, he was awarded the IEEE Instrumentation and Measurement Graduate Fellowship Award. He is a recipient of the China Scholarship Council (CSC) and University of Manchester Joint Scholarship, covering the period from 2022 to 2026. During his time at Hunan University, he received several accolades, including the Graduate Student National Scholarship for two consecutive years (2020-2021 and 2019-2020) and the Academic First-Class Scholarship. Additionally, he was recognized as an Outstanding Graduate Student for the 2019-2020 academic year. His achievements in competitions include the Central China Second Prize in the China Sensor Innovation and Entrepreneurship Competition and multiple awards in electronic design competitions. These recognitions underscore his dedication to research excellence and innovation in engineering.

Research Focus

Saibo She’s research focuses on the design of eddy current array sensors and the evaluation of ferromagnetic materials, particularly through the study of hysteresis loops and Barkhausen magnetic noise. He is keenly interested in defect diagnosis and identification utilizing artificial intelligence algorithms, aiming to enhance the capabilities of non-destructive testing techniques. His work addresses challenges in materials science and engineering, particularly in improving the reliability and efficiency of sensor technologies. By integrating machine learning approaches into traditional testing methods, Saibo seeks to push the boundaries of current evaluation techniques. His research not only contributes to academic knowledge but also has practical implications for industries requiring advanced non-destructive testing solutions. Saibo’s commitment to innovation and his technical expertise position him as a leading researcher in the field, with the potential to significantly advance the understanding and application of electromagnetic testing methods.

Publication Top Notes

  • Flexible Differential Butterfly-Shape Eddy Current Array Sensor for Defect Detection of Screw Thread πŸ“„
  • Flexible Floral Eddy Current Probe for Detecting Flaws in Metal Plate πŸ“„
  • Optimal Design of Remote Field Eddy Current Testing Probe for Ferromagnetic Pipeline Inspection πŸ“„
  • An Innovative Eddy Current Sensor with E-Core Ferrite Resistant to Lift-Off and Tilt Effects πŸ“„
  • Inspection of Defects Depth for Stainless-Steel Sheets Using Four-Coil Excitation Sensor and Deep Learning πŸ“„
  • Evaluation of Defects Depth for Metal Sheets Using Four-Coil Excitation Array Eddy Current Sensor and Improved ResNet18 Network πŸ“„
  • Thickness Measurement and Surface-Defect Detection for Metal Plate Using Pulsed Eddy Current Testing and Optimized Res2Net Network πŸ“„
  • Simultaneous Measurements of Metal Plate Thickness and Defect Depth Using Low Frequency Sweeping Eddy Current Testing πŸ“„
  • Size-Distinguishing Miniature Electromagnetic Tomography Sensor for Small Object Detection πŸ“„
  • Diffusion Velocity of Eddy Current in Metallic Plates Using Point-Tracing Method πŸ“„
  • Temperature Monitoring of Vehicle Brake Drum Based on Dual Light Fusion and Deep Learning πŸ“„

Conclusion

Saibo She is an excellent candidate for the Research for Best Researcher Award due to his impressive research accomplishments, innovative contributions, and strong leadership capabilities. By addressing the areas for improvement, such as expanding the practical impact of his research and enhancing interdisciplinary collaborations, he can further strengthen his profile. His trajectory indicates a promising future in research and innovation, making him a worthy recipient of this award.