Prof. Massimo Ceraolo | Network Communication Protocol | Best Researcher Award

Prof. Massimo Ceraolo, University of Pisa, Italy

Prof. Massimo Ceraolo is a distinguished figure in the field of Electrical Engineering, graduating with honors in 1985 🏅. His illustrious career spans from extensive research in private companies to esteemed positions in academia. As a full professor of Electric Power Systems at the University of Pisa, he has led numerous funded projects, including groundbreaking work on hybrid propulsion systems for vehicles 🚗. Prof. Ceraolo’s research interests encompass diverse areas such as electrochemical energy storage, electric and hybrid vehicles, and advanced simulation techniques 📊. He is also a dedicated educator, teaching courses on electric vehicles and power systems at both undergraduate and graduate levels 🎓. Additionally, he has held leadership roles within the academic community, serving as the President of the School of Engineering at the University of Pisa and contributing to various technical commissions and consortia 🌟.

🌐 Professional Profiles :

Scopus

Orcid

Google Scholar

🎓 Education:

Prof. Massimo Ceraolo has been a pioneering figure in electrical engineering for over three decades. 🌟🔌 His journey began at the Università degli Studi di Pisa in Tuscany, Italy, where he completed his Master of Science degree in Electrical Engineering from 1979 to 1985. 🎓🇮🇹 Since then, he has continued to contribute significantly to the field through his research, publications, and academic leadership. 📘📈 Prof. Ceraolo’s extensive expertise and dedication have left an indelible mark on the world of electrical engineering. ⚡🌍

🔬 Research Focus:

• Electrochemical energy storage systems
• Electric and hybrid vehicles
• Electrically driven guided transport systems
• Advanced simulation and lab testing systems

🌱 Funded Projects:

• Coordinated pioneering research leading to the development of the world’s first hybrid propulsion scooter in collaboration with Piaggio.
• Led various projects funded by public and private entities, including European Commission and Tuscan regional initiatives.

🎓 Teaching Activity:

• Instructs courses on Electric and Hybrid Vehicles and Electric Power Systems at the University of Pisa.
• Shares expertise in Naval Electric Systems at the Naval Academy of Livorno and various industry-oriented “Italian Masters” programs.

📘 Other Contributions:

• Co-authored educational materials, including the book “Fundamentals of Electric Power Engineering.”
• Held leadership roles within academia, including Presidency of the School of Engineering at the University of Pisa.
• Served on the Patent Technical Commission of the University of Pisa, showcasing his commitment to innovation and intellectual property.

📚 Publication Impact and Citations :

Scopus Metrics:

• 📝 Publications: 10 documents indexed in Scopus.
• 📊 Citations: A total of 16 citations for his publications, reflecting the widespread impact and recognition of Prof. Massimo Ceraolo’s research within the academic community.

Google Scholar Metrics:

• All Time:
  • Citations: 4784 📖
  • h-index: 26 📊
  • i10-index: 48 🔍
• Since 2018:
  • Citations: 1652 📖
  • h-index: 19 📊
  • i10-index: 32 🔍

👨‍🏫 A prolific researcher with significant impact and contributions in the field, as evidenced by citation metrics. 🌐🔬

Publications Top Notes :

1. New Dynamical Models of Lead-Acid Batteries
   • Published Year: 2000
   • Journal: IEEE Transactions on Power Systems
   • Cited By: 822
2. High Fidelity Electrical Model with Thermal Dependence for Characterization and Simulation of High Power Lithium Battery Cells
   • Published Year: 2012
   • Journal: IEEE International Electric Vehicle Conference
   • Cited By: 581
3. Dynamical Models of Lead-Acid Batteries: Implementation Issues
   • Published Year: 2002
   • Journal: IEEE Transactions on Energy Conversion
   • Cited By: 470
4. Control Techniques of Dispersed Generators to Improve the Continuity of Electricity Supply
   • Published Year: 2002
   • Journal: IEEE Power Engineering Society Winter Meeting Conference Proceedings
   • Cited By: 463
5. Modelling Static and Dynamic Behaviour of Proton Exchange Membrane Fuel Cells on the Basis of Electro-Chemical Description
   • Published Year: 2003
   • Journal: Journal of Power Sources
   • Cited By: 374