Shufeng Song | Batteries | Best Researcher Award

Posted on by Academic achievements

Assoc Prof. Dr. Shufeng Song | Batteries | Best Researcher Award 

Associate Professor at Chongqing University, China

Dr. Shufeng Song is an accomplished Associate Professor in the Department of Aerospace Engineering at Chongqing University, China. With a strong background in materials physics and chemistry, Dr. Song has established himself as a leading researcher in the field of advanced materials, particularly in developing innovative solutions for solid-state batteries. His academic journey, combined with a rich research career, has enabled him to make significant contributions to the understanding and development of superionic conductors and hybrid electrolytes. Over the years, he has garnered numerous accolades for his groundbreaking work, making him a notable candidate for prestigious research awards.

Profile

SCOPUS

Education

Dr. Song began his academic career at Shijiazhuang Tiedao University, where he earned a Bachelor’s degree in Inorganic Nonmetallic Materials Science and Engineering in 2006. Motivated by a passion for materials science, he pursued doctoral studies at the Shanghai Institute of Ceramics, Chinese Academy of Sciences, where he earned his Ph.D. in Materials Physics and Chemistry in 2011. During his doctoral research, Dr. Song laid the groundwork for his future innovations by exploring the intricacies of materials design, paving the way for a successful career in both academic and industrial research settings.

Experience

Dr. Song’s professional journey has been diverse and distinguished, reflecting his commitment to pushing the boundaries of materials science. After earning his Ph.D., he joined Dongfang Electric Corporation, one of the world’s largest energy equipment manufacturers, as a Research Scientist. Here, he gained valuable experience in the application of materials science to large-scale industrial challenges. In 2013, he transitioned to academia as a Postdoctoral Researcher in the Department of Mechanical Engineering at the National University of Singapore. This role allowed him to delve deeper into cutting-edge research, particularly in the development of solid-state battery materials. In 2016, Dr. Song joined Chongqing University as a Lecturer, quickly rising through the ranks to become an Associate Professor in 2018. His tenure-track position at Chongqing University has enabled him to lead several high-impact research projects and mentor a new generation of scientists.

Research Interests

Dr. Song’s research interests lie at the intersection of materials science and energy storage technology, with a specific focus on the development of advanced solid-state batteries. His work on superionic conductors has led to significant advancements in the field, particularly through the invention of hybrid electrolytes with superior ionic conductivity and stability. By synthesizing novel materials and exploring new synthesis methods, Dr. Song aims to overcome the limitations of traditional battery technologies, such as low energy density and poor safety. His research has also extended to optimizing the solid electrolyte interphase (SEI) and cathode electrolyte interphase (CEI), which are crucial for improving the performance and longevity of batteries. Through his innovative approaches, Dr. Song has contributed to the evolution of energy storage solutions that are safer, more efficient, and sustainable.

Awards

Dr. Song has been recognized for his significant contributions to materials science and battery technology. His research has attracted funding from prestigious institutions, including the Chinese National Natural Science Foundation and the Ministry of Science and Technology of China. In recognition of his pioneering work, he has also been invited to organize special issues for leading journals in the field of energy materials. His role as a reviewer for renowned journals such as Advanced Energy Materials and the Journal of Power Sources further attests to his standing in the academic community. Dr. Song’s achievements in both research and academic service demonstrate his ongoing commitment to advancing the field of materials science.

Publications

Dr. Song has an impressive publication record, with numerous papers published in high-impact journals. His works have gained considerable attention in the scientific community, as evidenced by the citations they have received. Here are six of his recent key publications:

Song, S. et al., “A concentrated ionogel-in-ceramic silanization composite electrolyte for quasi-solid-state Li metal batteries,” Energy & Environmental Materials, 2024. Cited by: 54.

Song, S. et al., “MoO3 facilitator enables ultrathin and stabilized Li metal anode for quasi-solid-state batteries,” Applied Physics Letters, 2023, 123, 113903. Cited by: 23.

Song, S. et al., “Fluorine-regulated cathode electrolyte interphase enables high-energy quasi-solid-state lithium metal batteries,” Applied Physics Letters, 2023, 122, 043903. Cited by: 19.

Song, S. et al., “Hybrid poly-ether/carbonate ester electrolyte engineering for quasi-solid-state lithium metal batteries,” Materials Today Energy, 2022, 23, 100893. Cited by: 45.

Song, S. et al., “Superconcentrated ionogel-in-ceramic hybrid electrolyte for solid-state Li/Na batteries,” Advanced Materials, 2022, 34, 2205560. Cited by: 253.

Song, S. et al., “Sintering of nano-grained Na superionic conductors,” Chemical Communications, 2021, 57, 4023. Cited by: 64.

Conclusion

Dr. Shufeng Song’s impressive career trajectory, marked by a blend of academic excellence, industrial experience, and innovative research, makes him a deserving candidate for the “Best Researcher Award.” His contributions to the development of advanced materials for energy storage have had a transformative impact on the field, addressing some of the most pressing challenges in battery technology. While there is always room for continued growth, particularly in expanding international collaborations and interdisciplinary research, Dr. Song’s achievements thus far undoubtedly qualify him for recognition as a leading researcher in his field.

 

Madhab Chandra Jena | Environmental impact assessment and control | Best Researcher Award

Posted on by Academic achievements

Dr . Madhab Chandra Jena | Environmental impact assessment and control | Best Researcher Award 

PhD scholar , BPUT , India

Madhab Chandra Jena is a highly accomplished professional pursuing a PhD in Sustainable Energy and Environment. He holds multiple degrees, including an M-Tech in Production Engineering, BEs in Mechanical and Electrical Engineering, and an MBA in Production Management. With certifications as a Certified Energy Manager, Energy Auditor, and Machinery Safety Expert, Madhab has a strong foundation in engineering and environmental sustainability. His career is marked by significant contributions to the fields of energy management, production optimization, and environmental impact reduction.

Profile

Scopus

Strengths for the Award

  1. Diverse and Extensive Qualifications: Madhab Chandra Jena holds a wide array of academic qualifications, including a Ph.D. in progress, M.Tech in Production Engineering, two B.E. degrees in Mechanical and Electrical Engineering, and an MBA in Production Management. His extensive certifications, including those in energy management, machinery safety, Six Sigma, and various ISO standards, highlight a strong foundation in both technical and management domains.
  2. Professional Expertise and Contributions: Jena’s expertise is further reinforced by his certification as an Energy Manager and Auditor by the Government of India, alongside his roles as a certified Lead Auditor and Internal Auditor for multiple ISO standards. His involvement as an editorial board member of recognized journals like Environmental Progress and Sustainable Energy and Journal of Chemical Engineering Research Updates underscores his influence and contribution to the academic community.
  3. Patents and Publications: With 10 patents and 6 research papers published in reputable journals such as Springer, Wiley, and Taylor & Francis, Jena demonstrates a significant contribution to innovation and research. His work covers a broad spectrum of topics, including sustainable engineering, environmental impact mitigation, and integration of Industry 4.0 with environmental management systems.
  4. Professional Recognition: Jena’s professional membership as a corporate member of the Institution of Engineers (India) and his editorial roles reflect his standing and recognition in the engineering community.

Areas for Improvement 

  1. Consolidation of Research Focus: While Jena has a diverse range of qualifications and research interests, a more concentrated focus on a specific area of research might strengthen his impact. Specializing further in one area, such as sustainable energy or environmental management, could lead to more significant contributions and recognition in that field.
  2. Publication Quantity and Impact: Although Jena has published in several reputed journals, increasing the volume of his publications and targeting higher-impact journals could enhance his academic profile. Additionally, expanding his research network and collaboration could lead to higher citation rates and more influential work.
  3. Engagement with Global Research Community: Jena could benefit from more active participation in international conferences and workshops, which would provide greater exposure to global research trends and opportunities for collaboration.

    Education 🎓

    Madhab’s educational journey is extensive, reflecting his commitment to academic and professional excellence. He earned his Diploma in Mechanical Engineering from Govt. Engg. School (O.S.M.E), Keonjhar, topping his class in 2001. He later completed his BE in Mechanical Engineering from the Institution of Engineers (India) Kolkata, followed by an MBA in Production Management from AIHE, Patna. Madhab’s academic credentials are further bolstered by an M-Tech in Mechanical (Production Engineering) from REC, Bhubaneswar, and coursework in PhD in Sustainable Energy and Environment from BPUT, Odisha.

    Experience 💼

    Madhab has extensive experience in engineering and management, with a focus on sustainable practices. His career includes roles in production engineering, energy management, and environmental sustainability. He has contributed significantly to optimizing solar power plants, enhancing sustainability in cement plants, and integrating Industry 4.0 with environmental management systems. Madhab’s expertise is recognized by his involvement on the editorial boards of prestigious journals and his professional membership with the Institution of Engineers (India).

    Research Interests 🔬

    Madhab’s research interests are centered around sustainable engineering, with a particular focus on integrating advanced technologies like Industry 4.0 with environmental management systems. His work explores the optimization of production processes, the sustainability of manufacturing practices, and the environmental impact of industrial activities. Madhab is passionate about developing innovative solutions to enhance environmental sustainability and mitigate the negative impacts of industrial processes.

    Awards & Recognitions 🏆

    Madhab has been recognized for his contributions to engineering and sustainability, receiving several awards and accolades throughout his career. His achievements include topping his class in Mechanical Engineering, qualifying the GATE exam twice, and earning certifications as a Certified Energy Manager, Energy Auditor, and Machinery Safety Expert. Madhab’s work has been acknowledged by leading academic and professional institutions, further establishing him as a leader in his field.

    Publications 📚

     

    Madhab Chandra Jena has published numerous research papers in prestigious journals, showcasing his expertise in sustainable engineering and environmental management. Here are some of his key publications:

    1. Integration of Industry 4.0 With Environment Management System (EMS) to Enhance Environmental Sustainability
    2. Integration of Industry 4.0 with Reliability Centered Maintenance to Enhance Sustainable Manufacturing
      • Published in Environmental Progress and Sustainable Energy, 2024. DOI: 10.1002/ep.14321
      • Cited by: Upcoming
    3. Introduction of RCA Pyramid Model: A Problem-Solving Tool to Achieve Business Excellence
    4. Introduction of ERAC (Environmental Risk Assessment and Control) Framework in Manufacturing to Enhance Sustainability
    5. Challenges and Way Forward in the Handling and Disposal of Battery Waste: Towards Sustainable Practices

 

 Conclusion

Madhab Chandra Jena is a highly qualified and multifaceted researcher with significant contributions to the fields of mechanical and production engineering, sustainability, and environmental management. His diverse academic background, professional certifications, and editorial roles demonstrate his capability and influence in his areas of expertise. However, to strengthen his candidacy for the Best Researcher Award, focusing on a specialized research area, increasing the quantity and impact of his publications, and engaging more actively with the global research community would be beneficial. Overall, Jena presents a strong case for the award, particularly in the context of his contributions to sustainable engineering and environmental management.

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

 

Mostafa Bigdeli | Civil Engineering | Best Researcher Award

Posted on by Academic achievements

Mr.Mostafa Bigdeli | Civil Engineering | Best Researcher Award

Student University of Ottawa  Canada

Mostafa Bigdeli is a seasoned water resources engineer with over a decade of experience in sustainable water management, hydraulics, and hydrology. His expertise spans numerical modeling, hydrotechnical engineering, and designing water infrastructure. With a strong academic background and extensive research experience, Mostafa has contributed significantly to the field of water resources through his work at the University of Ottawa and the National Research Council of Canada.

Profile

Scopus

Education

🎓 Ph.D. in Civil Engineering (Specialization in Hydrology and Hydraulics) (In Progress – Fall 2024)
University of Ottawa, Canada

🎓 M.Sc. in Civil and Environmental Engineering (2016)
Sharif University of Technology, Tehran, Iran

🎓 B.Sc. in Civil Water and Waste Water Engineering (2013)
Shahid Beheshti University, Tehran, Iran

Experience

💼 Research Assistant
National Research Council of Canada (NRC) (Jan 2023 – Feb 2024)

  • Modeled microplastics transport and deposition.
  • Developed CFD models for hydraulic applications.
  • Collaborated with cross-functional teams for data integration.

💼 Research Assistant
University of Ottawa – NRC (Jan 2022 – Jan 2023)

  • Simulated microplastics transport in the Ottawa River.
  • Conducted field studies and laboratory experiments.

💼 Supervisor
Air and Climate Projects, Tehran, Iran (Apr 2019 – Aug 2021)

  • Managed air pollutants and GHG emission inventory projects.
  • Developed emission reduction strategies.

💼 Supervisor
Water & Wastewater Networks Projects, Tehran, Iran (Mar 2017 – Mar 2019)

  • Supervised water distribution and wastewater collection network projects.

Research Interests

Mostafa’s research focuses on sustainable water management, numerical and experimental modeling of water systems, hydrotechnical and hydrological modeling, dam break analysis, and microplastics transport. His work integrates advanced data analysis and computer modeling techniques to improve water resources management.

Awards

  • Ranked in the top 1% of the Nationwide University Entrance Exams for B.Sc.
  • Ranked in the top 0.5% of the Nationwide University Entrance Exams for M.Sc.

Publications

  • Bigdeli, M., Mohammadian, A., Pilechi, A. (2024). “A Laboratory Dataset on Transport and Deposition of Spherical and Cylindrical Large Microplastics for Validation of Numerical Models.” Journal of Marine Science and Engineering, MDPI. https://doi.org/10.3390/jmse12060953 – Cited by 5 articles.
  • Roshani, E., Popov, P., Kleiner, Y., Sanjari, S., Colombo, A., Bigdeli, M. (2024). “Detecting and Locating Chemical Intrusion in Water Distribution Systems Using 9-1-1 Calls.” Journal of Hydroinformatics. https://doi.org/10.2166/hydro.2024.299 – Cited by 3 articles.
  • Bigdeli, M., Taheri, M., Mohammadian, A. (2023). “Numerical Modeling of Dam-Break Flood Flows for Dry and Wet Sloped Beds.” ISH Journal of Hydraulic Engineering. https://doi.org/10.1080/09715010.2022.2052986 – Cited by 4 articles.
  • Bigdeli, M., Mohammadian, A., Pilechi, A. (2022). “Numerical Modeling of Marine Microplastics Deposition Using Coupled CFD-DEM.” 3rd IAHR Young Professionals Congress.
  • Bigdeli, M., Mohammadian, A., Pilechi, A., Taheri, M. (2022). “Lagrangian Modeling of Marine Microplastics Fate and Transport: The State of the Science.” Journal of Marine Science and Engineering, MDPI. https://doi.org/10.3390/jmse10040481 – Cited by 6 articles.
  • Bigdeli, M., Mohammadian, A. (2021). “Numerical Simulation of Dam-Break Flood Flows on Sloping Beds.” CFDSC2021 Conference.
  • Bigdeli, M., Mohammadian, A. (2021). “Numerical Simulation of Turbulent Offset Dense Jet Flow.” CSCE 2021 Annual Conference.

Nooshin Bigdeli | Energy systems | Best Researcher Award

Posted on by Academic achievements

Prof.Dr.Nooshin Bigdeli | Energy systems | Best Researcher Award

Dean of Faculty of Engineering | Imam Khomeini International University | Iran

Nooshin Bigdeli, born on March 21, 1977, in Iran, is a distinguished professor at Imam Khomeini International University in Qazvin, Iran. She earned her Ph.D. in Electrical Engineering, specializing in Control, from Sharif University of Technology in Tehran in 2007. Her academic journey has been marked by significant contributions to Control Theory, Nonlinear Systems, Artificial Intelligence, Data Mining, and Energy System Management and Behavioral Analysis.

Profile

scholar

Education 📚

Nooshin Bigdeli received her Ph.D. in Electrical Engineering with a specialization in Control from Sharif University of Technology, Tehran, Iran, in 2007.

Experience 💼

Since obtaining her Ph.D., Dr. Bigdeli has been a faculty member in the Control Engineering Department at Imam Khomeini International University, Qazvin, Iran.

Research Interest 🧠

Her research interests span Control Theory, Nonlinear Systems, Artificial Intelligence, Data Mining, and the Management and Behavioral Analysis of Energy Systems. She has made significant contributions to Model Predictive Control (MPC) and Nonlinear Systems.

Award 🏆

Dr. Bigdeli has been recognized as the Outstanding National Professor of Iran in 2024 and was named the Influential Lady of Qazvin Province in 2023. She has also been acknowledged as a top researcher globally in various rankings, including by Stanford University and Elsevier.

Publications 📄

Nooshin Bigdeli has published numerous articles in reputable journals. One notable publication is:

  • Optimal management of hybrid PV/fuel cell/battery power system: A comparison of optimal hybrid approaches
    Published in Renewable and Sustainable Energy Reviews in 2015.
    Cited 175 times.