Best Academic Researcher Award
Amira Haddouk
University of Tunis, Tunisia
Amira Haddouk is an Associate Professor in Electrical Engineering at the University of Tunis whose work focuses on smart sensors, embedded systems, energy measurement technologies, and wireless power transfer applications. Her academic activities combine industrial instrumentation, intelligent monitoring systems, and renewable energy technologies. Through publications, conference contributions, and engineering research, she has developed practical solutions supporting efficient energy management and advanced sensing systems.[1]
Abstract
This article presents an overview of the academic profile of Amira Haddouk and highlights her contributions to electrical engineering, smart sensing technologies, and wireless energy transfer systems. Her work demonstrates an interdisciplinary approach integrating measurement science, embedded electronics, and renewable energy applications. These achievements provide a foundation for consideration within academic recognition programs and research excellence initiatives.[2]
Keywords
Wireless Power Transfer, Smart Sensors, Embedded Systems, Energy Measurement, Renewable Energy, Industrial Instrumentation, Electrical Engineering, Intelligent Monitoring Systems.
Introduction
Research in modern electrical engineering increasingly requires integration between sensing technologies, communication systems, and energy-efficient design. Amira Haddouk has contributed to these areas through studies addressing intelligent energy monitoring, smart metering platforms, and advanced measurement methodologies. Her scholarly activities reflect a commitment to practical engineering solutions supported by scientific investigation and experimental validation.[3]
Research Profile
As an Associate Professor, Haddouk has developed expertise in smart sensors, embedded platforms, electrical measurement systems, and energy management technologies. Her academic background includes doctoral research in electrical engineering and continued work in renewable energy applications. Current investigations include wireless power transfer systems capable of supporting sensor networks operating in inaccessible environments.[1]
Research Contributions
Her contributions include the development of smart energy meters, greenhouse monitoring systems, thermal energy management models, and power measurement techniques. These studies have addressed both theoretical and practical challenges associated with energy efficiency and intelligent control. The research outcomes support sustainable engineering practices and demonstrate relevance to industrial and environmental applications.[4]
Publications
Amira Haddouk has authored and co-authored publications covering wireless power transfer, smart energy metering, intelligent greenhouse control, electrical measurement systems, and sustainable energy technologies. Her publications appear in peer-reviewed journals and international conference proceedings. The body of work demonstrates continuous engagement with emerging engineering challenges and practical technological innovation.[2]
Research Impact
The measurable research impact includes citations, international collaborations, and scholarly dissemination through recognized publication channels. Her work contributes to the advancement of sustainable energy systems and intelligent instrumentation technologies. By connecting engineering theory with real-world implementation, the research supports academic and industrial communities alike.[5]
Award Suitability
The academic record, research productivity, and specialization in wireless power transfer and intelligent energy systems support consideration for the Best Academic Researcher Award. Her portfolio demonstrates sustained scholarly activity, publication output, and practical engineering relevance. These characteristics align with the objectives commonly associated with international research recognition programs.
Conclusion
Amira Haddouk has established a research profile centered on innovation in electrical engineering, energy monitoring, and wireless power technologies. Her scholarly achievements reflect continuous engagement with contemporary engineering challenges. The combination of academic leadership, publication activity, and applied research strengthens her profile within international research communities.
External Links
References
- Chebbi, A., Haddouk, A., Monteiro, V., Afonso, J. L., & Mechergui, H. (2025). Design and implementation of a resonant inductive wireless power transfer system powered by a Class D amplifier for smart sensors in inaccessible environments. Electronics, 15(1), Article 33.
https://doi.org/10.3390/electronics15010033
- Haddouk, A., & Mechergui, H. (2024). Wireless energy transfer for powering smart sensors. In Proceedings of the International Conference on Control, Decision and Information Technologies (CoDIT). IEEE.
https://doi.org/10.1109/CODIT62066.2024.10708446
- Haddouk, A., Tanazafti, A., & Mechergui, H. (2023). Development of a smart energy meter for electrical energy consumption and power. In Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering (LNICST). Springer.
https://doi.org/10.1007/978-3-031-33979-0_7
- Haddouk, A., Khlifi, K., Monteiro, V., Afonso, J. L., & Mechergui, H. (2021). Power losses reduction in a variable linear power supply using the LM317 voltage regulator. ISA Transactions, 116, 234–244.
https://doi.org/10.1016/j.isatra.2020.12.004
- Khlifi, K., Haddouk, A., Ayari, A., & Mechergui, H. (2018). Measurement of active power, electrical energy, and TRMS voltage and current using the dual slope conversion technique. Turkish Journal of Electrical Engineering & Computer Sciences, 26(2), 1024–1038.
https://doi.org/10.3906/ELK-1704-131