Pravin Sankhwar | Electrical Engineering | Global Impact in Research Award

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Mr. Pravin Sankhwar | Electrical Engineering | Global Impact in Research Award

Electrical Engineering / Electrical Engineer at Independent Scholar, India

Pravin Sankhwar is an accomplished electrical engineer whose research focuses on electrical vehicle charging infrastructure, renewable energy, smart grid systems, and energy management. With extensive experience and numerous accolades, Pravin has become a prominent figure in both academic and industrial circles. His research has been pivotal in transforming the electric vehicle industry, providing innovative solutions that directly address environmental and technological challenges. As an independent scholar, Pravin’s contributions extend beyond academic publications to practical applications that aim to reduce carbon footprints and support the global transition to sustainable energy sources.

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Google Scholar | ORCID

Education

Pravin Sankhwar holds a Bachelor’s and Master’s degree in Electrical Engineering. His academic journey has been marked by a strong focus on sustainable technologies, particularly in the fields of electric vehicles and energy systems. Throughout his academic career, Pravin demonstrated exceptional problem-solving abilities and a keen interest in the intersection of engineering and environmental sustainability. These educational qualifications laid a solid foundation for his later research and professional endeavors.

Experience

With years of experience as both a researcher and a practitioner, Pravin Sankhwar has worked on a variety of industry projects that span across electrical design, smart grids, and renewable energy. As a licensed professional engineer, Pravin has contributed to major projects, such as electrical power design for infrastructure like bridges, ports, schools, and wastewater treatment plants. His work has made a significant impact in the energy sector, particularly with his involvement in projects that focus on energy-efficient solutions for transportation and residential buildings. Additionally, Pravin has served as a guest editor for leading engineering journals and has been an active speaker at various energy and engineering conferences. His extensive network and collaborations with leading professionals worldwide have allowed him to influence the future of energy management systems.

Research Interests

Pravin Sankhwar’s research is centered around the integration of renewable energy sources with existing power grids, particularly focusing on the electric vehicle (EV) charging infrastructure and smart grid systems. His research into the electrification of transportation has provided valuable insights into reducing dependence on fossil fuels, making significant contributions to the decarbonization efforts in the transportation sector. Additionally, Pravin is passionate about developing energy management systems that optimize the integration of renewable energy and smart grid technologies. He is particularly interested in examining how technologies such as floating solar photovoltaics and wireless EV charging can help shape a more sustainable future.

Awards

Pravin’s work has been recognized both nationally and internationally. He has received accolades for his contributions to sustainable engineering and innovative solutions in the electric vehicle industry. His active participation in IEEE conferences, as well as his leadership roles in various editorial boards, underscores the high regard in which he is held within the academic community. Pravin’s dedication to research excellence has earned him invitations to collaborate on projects that have far-reaching implications in the fields of energy efficiency and renewable resources.

Publications

Application of Permanent Magnet Synchronous Motor for Electric Vehicle, International Journal of Design Engineering, 2024, 4(2), 1-6, Cited by: 4

Future of Gasoline Stations, World Journal of Advanced Engineering Technology and Sciences, 2024, 13(1), 012–017, Cited by: 2

Energy Reduction in Residential Housing Units, International Journal of Advanced Research, 2024, 12(8), 667-672, Cited by: 2

Evaluation of Transition to 100% Electric Vehicles (EVs) by 2052 in the United States, Sustainable Energy Research, 2024, 11(1), 35, Cited by: 1

Capital Budgeting for Electrical Engineering Projects: A Practical Methodology, World Journal of Advanced Research and Reviews, 2024, 24(02), 1549–1555

Wireless Electric Vehicle Charging While in Motion via Varying Power Sources (Solar and Power Grid), IJARESM, 2024, 12(11), 1043-1047

Application of Floating Solar Photovoltaics (FPV) at Great Salt Lake, Utah, 2024.

Conclusion

Pravin Sankhwar’s research has significantly impacted both the academic and industrial sectors, especially in the areas of electric vehicles, renewable energy, and smart grid integration. Through his publications, consultancy projects, and leadership in energy innovation, he has contributed valuable insights to the global push for sustainability. His work not only enhances the academic community but also provides real-world solutions that aid in transitioning to a more sustainable and energy-efficient future. Pravin’s dedication to advancing the electrification of transportation, alongside his focus on renewable energy, positions him as an ideal candidate for the Global Impact in Research Award. His work embodies the qualities of innovation, sustainability, and global influence that this prestigious award seeks to recognize.

 

Mohammad Hejri | Electrical Engineering | Best Researcher Award

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Dr. Mohammad Hejri | Electrical Engineering | Best Researcher Award 

Associate Professor at Sahand University of Technology, Department of Electrical Engineering, Iran

Mohammad Hejri is an esteemed Associate Professor in the Department of Electrical Engineering at Sahand University of Technology, located in Sahand New Town, Tabriz, Iran. With a robust academic foundation in Electrical Engineering and Electronic and Computer Engineering, he has dedicated his career to advancing knowledge and expertise in the fields of power electronics, control systems, and renewable energy. Hejri holds a dual Ph.D. from Sharif University of Technology in Tehran and the University of Cagliari in Italy, which showcases his international academic collaborations and high academic performance throughout his studies.

Profile

Scopus

Education

Hejri’s academic journey began with a Bachelor of Science in Electrical Engineering from Tabriz University, where he graduated with a commendable GPA of 16.97/20. He continued to excel during his Master of Science studies at Sharif University of Technology, achieving a GPA of 17.72/20. His commitment to excellence culminated in earning a double-title Ph.D. in Electrical Engineering from Sharif University and Electronic and Computer Engineering from the University of Cagliari, with an impressive GPA of 17.37/20. His thesis focused on hybrid modeling and control of power electronics converters, reflecting his interest in sophisticated control systems.

Experience

With over a decade of experience, Hejri has been instrumental in academia and industry. He joined Sahand University of Technology in 2012, where he has significantly contributed to research and teaching in electrical engineering. His international experience includes a postdoctoral research fellowship at the Royal Institute of Technology (KTH) in Sweden, where he engaged in smart modeling for optimal integration of photovoltaic systems. Hejri has also been associated with several prestigious institutions, including the Niroo Research Institute and Azerbaijan Regional Electric Company, further showcasing his diverse expertise in power systems and intelligent grid projects.

Research Interests

Hejri’s research interests encompass a range of topics in electrical engineering, with a strong focus on power electronics, control systems, and renewable energy applications. His work primarily explores the robust stabilization of nonlinear systems, hybrid control strategies for power converters, and practical stabilization techniques for discrete-time switched systems. He is particularly interested in applying advanced control theory to enhance the performance and reliability of electrical systems, contributing to the development of sustainable energy solutions.

Awards

Hejri has received numerous accolades for his outstanding contributions to research and academia. In 2024, he was selected for the International Young Scientist Awards under the Best Researcher Award category, a testament to his impact in the field. He has previously been recognized as the best candidate for a postdoctoral research position at KTH among 43 applicants. Hejri’s academic achievements include ranking first among 30 students in the Ph.D. entrance exam at Sharif University and consistently performing at the top of his class throughout his education.

Publications

Hejri has an extensive publication record, contributing significantly to various journals and conferences. Notably, his works include:

Hejri, M. “Robust stabilization of uncertain nonlinear systems with matched and unmatched uncertainties,” International Journal of Control, 2024. DOI: 10.1080/00207179.2024.2397485.

Hejri, M. “Improving Extensions for the Global Uniform Asymptotic Stability of Continuous-time Nonlinear Systems,” International Journal of Systems Science, 2024. DOI: 10.1080/00207721.2024.2409848.

Hejri, M. “Practical Stabilization of Discrete-time Switched Nonlinear Systems without a Common Equilibrium and Using Hybrid Switching Functions,” International Journal of Control, 2024. DOI: 10.1080/00207179.2024.2365359.

Conclusion

Mohammad Hejri stands out as a highly qualified candidate for the Best Researcher Award due to his educational achievements, notable recognition, and contributions to the field of Electrical Engineering. His ongoing research on hybrid modeling and control demonstrates his innovative approach to complex problems. By addressing areas for improvement, particularly in the practical application of his research and enhancing mentorship roles, he can further enhance his impact on the field and solidify his reputation as a leading researcher.

Thokozile Mazibuko | Electrical Engineering | Best Researcher Award

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Ms . Thokozile Mazibuko | Electrical Engineering | Best Researcher Award 

Lecturer , durban university of technology , South Africa

Thokozile Fortunate Mazibuko is a dedicated electrical engineer with a concentration in Power and Renewable Energy Systems. She is passionate about innovation and creativity, consistently aiming to contribute to the field through research and teaching. With a strong technical aptitude and experience in both academia and industry, Thokozile is currently a lecturer at Durban University of Technology, where she focuses on developing new teaching methodologies and supervising research projects.

Profile

Scopus

Strengths for the Award

  1. Extensive Academic Background: Thokozile has a strong academic foundation, holding a Master’s degree in Electrical Engineering with Cum Laude from Tshwane University of Technology and another Master’s from RWTH Aachen University. She is currently pursuing a Ph.D. in Electrical Engineering at the Durban University of Technology, focusing on renewable energy and power systems, which highlights her dedication to advancing her knowledge and expertise in this field.
  2. Research Expertise: Thokozile has contributed to several high-impact publications in the areas of power systems, renewable energy, and energy systems optimization. Her work on the application of synchrophasors for transient stability analysis and her involvement in the techno-economic design and optimization of hybrid energy systems demonstrate her capability to handle complex and critical issues in the energy sector.
  3. Teaching and Mentorship: Her experience as a lecturer at the Durban University of Technology and the University of Johannesburg reflects her commitment to academia. Thokozile has developed and implemented innovative teaching approaches, supervised research activities, and contributed to the academic development of her students, enhancing her institution’s research profile.
  4. Professional Experience: Thokozile has a robust professional background, with experience in both academia and industry. Her roles at Rand Water, Anglo American, and Anglo Platinum, where she handled responsibilities ranging from quality control to project management, provide her with a well-rounded understanding of the practical applications of her research.
  5. Technical Skills: Thokozile possesses a wide range of technical skills, including complex problem-solving, systems analysis, and technology design. These skills, combined with her research and teaching experience, make her a strong candidate for the Best Researcher Award.

Areas of Improvement 

  • Expanded Research Impact: While Thokozile has a solid publication record, expanding her research impact through collaborations, securing grants, and leading high-profile projects could further enhance her profile. Engaging in more interdisciplinary research could also broaden her influence in related fields.
  • Industry-Academia Collaboration: Increasing collaboration with industry partners could enhance the practical relevance of her research and lead to innovations that directly impact the energy sector. This could also provide more opportunities for funded research projects and applications.

Visibility in International Conferences: While Thokozile has presented at various conferences, increasing her presence at international conferences and workshops, especially in leadership or keynote roles, would raise her profile in the global research community.

Education 

Thokozile is currently pursuing her Ph.D. in Electrical Engineering at Durban University of Technology. She holds a Master’s degree in Electrical Engineering from Tshwane University of Technology (Cum Laude) and another Master’s degree from RWTH Aachen University in Germany. Her academic journey began with a Bachelor of Technology in Electrical Engineering (Power) from Tshwane University of Technology and a Diploma in Electrical Engineering from Durban University of Technology.

Experience 

Thokozile has extensive experience in both academic and industrial settings. Since 2020, she has been a lecturer at Durban University of Technology, where she develops innovative teaching approaches and supervises research projects. Before that, she lectured at the University of Johannesburg, focusing on Power Electronics, Protection Technology, and Control Systems. Thokozile has also worked as a Graduate Intern at Rand Water and held various roles at Anglo American, including Quality Control Coordinator and Engineering Trainee.

Research Interests 

Thokozile’s research interests lie in Power and Energy Systems, particularly in renewable energy sources. Her work focuses on the application of synchrophasors in multi-machine power systems for transient stability analysis and the optimization of hybrid energy systems. She is dedicated to advancing the field through her research, which combines technical expertise with practical applications.

Awards 

Thokozile has earned recognition for her academic achievements, including her Cum Laude distinction for her Master’s degree in Electrical Engineering. Her work has been consistently recognized for its impact on the field, contributing to the development of innovative solutions in power and energy systems.

Publications 

Thokozile has authored several research papers in esteemed journals and conference proceedings, showcasing her contributions to the field of electrical engineering:

Conclusion

Thokozile Fortunate Mazibuko is a highly qualified and experienced researcher with a strong academic and professional background in electrical engineering, particularly in power systems and renewable energy. Her dedication to research, teaching, and technical expertise make her a strong candidate for the Best Researcher Award. With further emphasis on expanding her research impact, industry collaboration, and international visibility, she has the potential to achieve even greater recognition in her field.

Mansi Girdhar | Power Systems | Best Researcher Award

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Ms. Mansi Girdhar | Power Systems | Best Researcher Award 

Ph.D.| Univrsity of Michigan | United States

Based on the provided information, here is a comprehensive analysis of the candidate’s suitability for the “Best Researcher Award” with a focus on strengths, areas for improvement, and conclusions:

Strengths for the Award

The candidate, currently a Ph.D. candidate in Electrical and Computer Engineering at the University of Michigan-Dearborn, demonstrates exceptional credentials and accomplishments that align with the criteria for the Best Researcher Award. Their academic achievements, underscored by high GPAs throughout their educational journey, reflect a solid foundation and dedication to their field.

One of the most notable strengths of the candidate is their extensive and impactful research experience. Their work spans several cutting-edge areas including cybersecurity in power systems, digital substations, and autonomous vehicle technologies. The research projects funded by prestigious institutions like the Department of Energy (DOE) and KERI (Korea Electrotechnology Research Institute) illustrate their involvement in high-stakes, transformative research. The development of cyber-resilient security layers for substations and dynamic cybersecurity frameworks for IEC-61850 communications not only shows technical prowess but also addresses critical challenges in modern infrastructure.

The candidate’s ability to bridge theoretical research with practical applications is another key strength. Projects such as the Hardware-in-the-Loop Testbed and Cybersecurity of EV Charging Stations showcase their skill in real-world problem-solving, reflecting a comprehensive understanding of both the technology and its potential vulnerabilities. This hands-on experience is further supported by their role as a Graduate Student Research Assistant and Instructor, where they contribute to both research and education, reinforcing their commitment to the advancement of the field.

Their impressive publication record, with multiple papers in high-impact conferences and journals like IEEE Transactions and IEEE Power & Energy Society General Meeting, highlights their contribution to advancing knowledge in their research areas. The diversity of their publications, from cybersecurity in EV charging stations to machine learning-based anomaly detection, underscores their versatility and expertise.

Additionally, the recognition they have received, including awards and certifications, reinforces their position as a leading researcher. Their role as a jury member at prestigious conferences and their involvement in various IEEE committees demonstrate their active engagement with the broader academic and professional community.

Areas for Improvement

Despite these strengths, there are areas where the candidate could further enhance their profile. One area for improvement is broadening their research impact through collaborative interdisciplinary projects. While their work is highly specialized, integrating insights from other fields such as policy-making or social sciences could provide a more holistic approach to their research problems, particularly in areas like cybersecurity and autonomous vehicles.

Another area for growth could be expanding their outreach and dissemination efforts. While their research is published in esteemed journals, engaging more with industry stakeholders and policymakers could amplify the real-world impact of their findings. Increased participation in industry conferences and public forums might help bridge the gap between research and practical application.

Additionally, while the candidate’s technical skills are extensive, incorporating a more diverse set of methodologies or exploring emerging technologies such as quantum computing or advanced AI techniques might offer new avenues for innovation in their research.

Conclusion

In conclusion, the candidate is highly deserving of the Best Researcher Award based on their exceptional academic record, significant research contributions, and active engagement in their field. Their work addresses pressing issues in cybersecurity, digital substations, and autonomous vehicles, demonstrating both depth and breadth of expertise.

Their strengths, particularly their ability to translate research into practical solutions and their active involvement in the academic community, position them as a leading researcher. Addressing areas for improvement, such as fostering interdisciplinary collaborations and expanding outreach efforts, could further enhance their impact and recognition.

Overall, the candidate’s accomplishments and ongoing contributions make them a standout choice for the Best Researcher Award, reflecting both their commitment to advancing knowledge and their potential for continued influence in their field.

Short Bio 🌟

Mansi Girdhar is a Ph.D. candidate in Electrical and Computer Engineering at the University of Michigan-Dearborn, USA, specializing in digital substations, EV charging stations, and cybersecurity for electrified and autonomous transportation. Her research focuses on IEC-61850-based communication, threat modeling, and software-defined networking (SDN). Mansi has extensive experience in hardware-in-the-loop testbeds, real-time simulation, and cyber-physical security. She has been actively involved in academia and industry collaborations, addressing critical challenges in power grid cybersecurity and emerging technologies.

Profile

Google Scholar

Education 📚

Mansi holds a Ph.D. in Electrical and Computer Engineering from the University of Michigan-Dearborn, where she maintains a GPA of 3.88/4. She earned her Master’s and Bachelor’s degrees in Electronics and Communication Engineering from Guru Nanak Dev Engineering College in Punjab, India, graduating with high honors and a GPA of 3.90/4 in both degrees. Her academic journey has equipped her with a robust foundation in electrical engineering principles and advanced knowledge in digital substations and cybersecurity.

Experience 💼

As a Graduate Student Research Assistant (GSRA) at the University of Michigan-Dearborn, Mansi has contributed significantly to several research projects funded by the Department of Energy (DOE) and the university. Her research includes the development of cyber-resilient security layers for substations (CREST project) and SDN-based cybersecurity frameworks for IEC-61850 communications in smart grids. She has also led the Hardware-in-the-Loop Testbed project, integrating various devices for real-time simulations in power systems.

As a Graduate Student Instructor (GSI), Mansi has taught undergraduate courses in digital systems, software technology, control theory, and system design. She has also served as a lab instructor for electric circuits and automatic control systems, demonstrating her commitment to academic excellence and student mentorship.

Research Interest 🔬

Mansi’s research interests span several critical areas in electrical engineering and cybersecurity. Her primary focus includes:

  • Cybersecurity of digital substations and EV charging stations
  • Software-defined networking (SDN) applications in power systems
  • Threat modeling and mitigation strategies for critical infrastructure
  • Real-time simulation of cyber-attacks on communication protocols (IEC-61850 SV and GOOSE)
  • Anomaly detection and cybersecurity frameworks for autonomous and connected vehicles

Awards and Recognition 🏆

Mansi has received numerous accolades for her outstanding contributions to research and academia, including the Distinguished Graduate Student Research Award at the University of Michigan. She was recognized for her work on cybersecurity in EV charging stations, which was featured prominently at the North American International Detroit Auto Show. Mansi has also been involved in various leadership roles, serving as a jury member and panelist at IEEE conferences and representing the university at prestigious events like the Cyber Auto Challenge.

Publications 📝

M. Girdhar, J. Hong, Y. You, T. -J. Song and M. Govindarasu. “Cyber-Attack Event Analysis for EV Charging Stations.” IEEE Power & Energy Society General Meeting (PESGM), 2023. Link

S. Bhattacharya, M. Govindarasu, M. Girdhar and J. Hong. “A Quantitative Methodology for Attack-Defense Analysis of EV Charging Infrastructure.” IEEE Power & Energy Society General Meeting (PESGM), 2023. Link

M. Girdhar, J. Hong, Y. You and T. -J. Song. “Anomaly Detection for Connected and Automated Vehicles: Accident Analysis.” IEEE Transportation Electrification Conference & Expo (ITEC), 2023. Link

M. Girdhar, J. Hong and J. Moore. “Cybersecurity of Autonomous Vehicles: A Systematic Literature Review of Adversarial Attacks and Defense Models.” IEEE Open Journal of Vehicular Technology, vol. 4, pp. 417-437, 2023. Link

M. Girdhar, Y. You, T. -J. Song, S. Ghosh and J. Hong. “Post-Accident Cyberattack Event Analysis for Connected and Automated Vehicles.” IEEE Access, vol. 10, pp. 83176-83194, 2022. Link

M. Girdhar, J. Hong, Y. Yoo and T. -j. Song. “Machine Learning-Enabled Cyber Attack Prediction and Mitigation for EV Charging Stations.” IEEE Power & Energy Society General Meeting (PESGM), 2022. Link

J. Hong, M. Girdhar, C. -W. Ten, S. Lee and S. Choi. “Cybersecurity of Sampled Value Messages in Substation Automation System.” IEEE Power & Energy Society General Meeting (PESGM), 2022. Link

K. Verma, M. Girdhar, A. Hafeez and S. S. Awad. “ECU Identification using Neural Network Classification and Hyperparameter Tuning.” IEEE International Workshop on Information Forensics and Security (WIFS), 2022. Link

A. Hafeez, J. Mohan, M. Girdhar and S. S. Awad. “Machine Learning based ECU Detection for Automotive Security.” 17th International Computer Engineering Conference (ICENCO), 2021. Link

M. Girdhar, J. Hong, H. Lee and T. -J. Song. “Hidden Markov Models-Based Anomaly Correlations for the Cyber-Physical Security of EV Charging Stations.” IEEE Transactions on Smart Grid, vol. 13, no. 5, pp. 3903-3914, 2022. Link

M. Girdhar, J. Hong, R. Karnati, S. Lee and S. Choi. “Cybersecurity of Process Bus Network in Digital Substations.” International Conference on Electronics, Information, and Communication (ICEIC), 2021. Link

M. Girdhar and B. S. Dhaliwal. “Hybrid Fractal Boundary MIMO Antenna for Multiband Applications.” SAMRIDDHI: A Journal of Physical Sciences, Engineering, and Technology, vol. 12, pp. 23-27, 2020. Link

M. Girdhar and B. S. Dhaliwal. “Hybrid Fractal Boundary MIMO Antenna for Multiband Applications.” Journal of Innovation in Electronics and Communication Engineering, vol. 9, pp. 29-32, 2020. Link

M. Girdhar, K. Singh and D. Singh. “Non-Orthogonal Multiple Access in 5G.” International Conference on Soft Computing Applications in Wireless Communication, 2017. Link

 

Dr. Waqar Hassan – Electrical – Best Paper Award

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Dr. Waqar Hassan - Electrical - Best Paper Award

UNITEN - Malaysia

Professional Profiles

Early Academic Pursuits

Waqar Hassan, PhD, MBA, embarked on his academic journey with a profound passion for electrical engineering. His quest for knowledge commenced at the prestigious University of Engineering & Technology Lahore, Pakistan, where he pursued a Bachelor's degree in Electrical Engineering, specializing in Power Systems. His exceptional academic performance, marked by distinctions and high grades, laid the groundwork for his subsequent scholarly pursuits.

Driven by a thirst for deeper understanding, Hassan continued his academic journey with a Master's degree in Electrical Engineering, focusing on Power Systems, at the same institution. His dedication and commitment to excellence earned him commendation from faculty and peers alike, reflecting his unwavering determination to excel in his field.

Professional Endeavors

With a solid academic foundation in hand, Hassan transitioned seamlessly into the professional realm, where he embarked on a distinguished career spanning over 13.5 years. His expertise in electrical engineering, particularly in Power Systems and High Voltage, positioned him as a sought-after professional in both academia and industry.

Hassan's professional journey took him across borders to Malaysia, where he assumed the role of Research Fellow (International) at the Institute of Power Engineering (IPE), Universiti Tenaga Nasional (UNITEN). Here, he spearheaded field research and consultancy projects in electrical engineering, contributing valuable insights and expertise to the advancement of the field.

Prior to his tenure at UNITEN, Hassan served as an Assistant Professor and Head of Department at the Department of Electrical Engineering & Technology, Institute of Southern Punjab, Multan, Pakistan. In these capacities, he demonstrated exceptional leadership and teaching prowess, imparting knowledge and guidance to aspiring electrical engineers while overseeing the administrative and academic affairs of the department.

Contributions and Research Focus On Electrical

Throughout his career, Hassan's contributions to the field of electrical engineering have been multifaceted and impactful. His research focus primarily revolves around Power Systems and High Voltage engineering, encompassing areas such as renewable energy integration, grid stability, and power system protection.

Hassan's research endeavors have yielded significant insights and innovations, addressing critical challenges in the field and contributing to its ongoing evolution. His publications and consultancy projects stand as testaments to his dedication to advancing knowledge and finding practical solutions to real-world problems.

Accolades and Recognition

Hassan's exemplary contributions have not gone unnoticed, earning him recognition and accolades from peers and professional organizations. His scholarly achievements, coupled with his leadership roles in academia and industry, have garnered him respect and admiration within the electrical engineering community.

Impact and Influence

Hassan's impact extends beyond the confines of academia and industry, encompassing the lives of students, colleagues, and aspiring engineers whom he has mentored and inspired throughout his career. His commitment to excellence, coupled with his passion for education and research, has left an indelible mark on the field of electrical engineering and the individuals fortunate enough to have crossed paths with him.

Legacy and Future Contributions On Electrical

As Hassan's career continues to evolve, his legacy as a visionary in the field of electrical engineering remains firmly entrenched. His dedication to advancing knowledge, fostering innovation, and nurturing future generations of engineers ensures that his influence will endure for years to come. With each new endeavor, Hassan continues to push the boundaries of possibility, leaving an enduring legacy of excellence and impact in his wake.

Notable Publications

Investigation of partial discharge characteristics in XLPE cable insulation under increasing electrical stress 2024

Review on Partial Discharge Diagnostic Techniques for High Voltage Equipment in Power Systems 2023

Influence of Voltage Harmonics on Partial Discharge Diagnostics in Electric Motors Fed by Variable-Frequency Drives 2022