Zeeshan Haider | Power System | Best Researcher Award

Posted on by Academic achievements

Mr. Zeeshan Haider | Power System | Best Researcher Award

Mr. Zeeshan Haider | Power System – PhD at Sungkyunkwan University, South Korea

Zeeshan Haider is an emerging researcher in the field of Electrical and Computer Engineering, specializing in power systems, renewable energy, and hybrid AC/DC distribution networks. With a focus on ground-breaking work in power system protection and smart grids, Zeeshan has demonstrated both academic excellence and strong research capabilities. His academic journey began with an undergraduate degree in Electrical (Power) Engineering, followed by an integrated Master’s and Ph.D. program. Throughout his studies, he has consistently pursued projects that bridge theoretical knowledge with practical application, positioning himself as a promising young leader in the field.

Profile:

Google Scholar

Education:


Zeeshan Haider completed his undergraduate studies in Electrical (Power) Engineering from COMSATS University Islamabad in 2019, where he graduated with a CGPA of 3.48/4. Afterward, he pursued a combined Master’s and Ph.D. program at Sungkyunkwan University in South Korea, starting in 2022. During his academic career, he has focused on research related to the protection and grounding of hybrid AC/DC networks, an area that has become increasingly important in modern energy systems. The reputation of Sungkyunkwan University, ranking #123 globally in QS subject rankings, has provided Zeeshan with a solid foundation to enhance his research skills and capabilities.

Experience:


Zeeshan Haider’s career experience blends both academic and industrial roles. He has worked as a Sale and Service Engineer at SEICO Scientific in Rawalpindi, Pakistan, and as a DOC Engineer at Huawei Islamabad. These roles allowed Zeeshan to bridge the gap between theoretical knowledge and real-world applications, gaining hands-on experience with cutting-edge technologies in the power sector. These industry positions helped him develop practical skills in electronics and power systems, complementing his academic research. Additionally, Zeeshan has taken on leadership roles in academic societies, further honing his organizational and collaborative skills.

Research Interest:


Zeeshan’s primary research interests lie in renewable energy resources, power system protection, smart grids, and power electronics. His work revolves around the challenges posed by medium voltage hybrid AC/DC distribution systems, with an emphasis on grounding and protection schemes. The rapid development of smart grids and renewable energy technologies drives Zeeshan’s research, and he is passionate about finding innovative solutions to improve the efficiency and reliability of power systems. His interest in this field is rooted in his belief that these technologies will be crucial for the future of sustainable energy, particularly in the context of climate change and the increasing global demand for clean energy solutions.

Awards:


Zeeshan Haider has earned several accolades in his academic and professional journey. Notably, he was selected for the prestigious Erasmus+ International Credit Mobility Program, allowing him to study at Istanbul Sehir University in Turkey. This opportunity enabled him to experience a diverse academic environment and expand his research network. Additionally, he has received certificates for his contributions to various academic and extracurricular activities, such as volunteering services and leadership within the IET (Institution of Engineering and Technology) society. His dedication to both research and community service further enhances his profile as a researcher and a global contributor to the field.

Publication:


Zeeshan Haider has contributed to a number of significant publications, shedding light on important issues in hybrid AC/DC networks and power system protection. Below is a list of his publications:

  1. Hassan, S. J., Mehdi, A., Haider, Z., Song, J-S., Abraham, A. D., Shin, G-S., & Kim, C-H. (2024). “Towards medium voltage hybrid AC/DC distribution systems: Architectural topologies, planning and operation.” Measurement, Volume 64, 2024, 102664.
    This article discusses architectural designs and operational strategies for hybrid AC/DC systems. It is cited for its groundbreaking work in distribution systems. 📖⚡
  2. Mehdi, A., Hassan, S. J., Haider, Z., Arefaynie, A. D., & Song, J-S. (2024). “A systematic review of fault characteristics and protection schemes in hybrid AC/DC networks: Challenges and future directions.” Measurement, Volume 220, 2024, 115295.
    This paper provides a detailed review of fault detection methods and protection schemes in hybrid AC/DC networks, cited for its contribution to future research directions in power systems. 📘🔧
  3. Haider, Z., Alamgir, S., Abdelmaksoud, A., Kwon, O-S., Bae, J-Y., & Kim, C-H. (2024). “Fault Current Calculation and Simulation Considering Grounding in MMC-Based Medium Voltage DC Distribution System.” Proceedings of the KIEE Summer Conference 2024.
    This work offers insights into the simulation of fault currents in medium voltage DC systems. It is cited for its practical contributions to DC fault analysis. 🔌📊
  4. Haider, Z., Mehdi, A., Hassan, S. J., Song, J-S., Arefaynie, A. D., & Kim, C-H. (2023). “Investigation of Grounding Schemes in Hybrid (AC/DC) Medium Voltage Distribution Networks.” Proceedings of the International Conference on Electrical Facilities and Information Technologies 2023.
    This paper investigates the grounding schemes in hybrid distribution networks and is cited for its critical role in system safety. 🌍🔋

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Mansi Girdhar | Power Systems | Best Researcher Award

Posted on by Academic achievements

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