Ahmed Nouainia | Electromagnetic et electronique | Best Scholar Award

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Mr. Ahmed Nouainia | Electromagnetic et electronique | Best Scholar Award

Mr at Université tunis manar, Tunisia

Nouainia Ahmed, born on August 20, 1985, is a Tunisian physicist specializing in electromagnetic shielding and radio frequency circuits. With a Ph.D. in Physics from the Faculty of Sciences of Tunisia (2019), his work has primarily focused on optimizing shielding efficiency in communication systems. He served as a Contractual Assistant Professor at various institutions including the Higher Institute of Human Sciences of Jendouba and the Higher Institute of Technology Studies of Jendouba. In addition, Nouainia has contributed significantly to postdoctoral research at the National Institute of Research and Physical and Chemical Analysis (INRAP). He is skilled in designing RF circuits, antennas, and digital signal processing, and has actively supervised master’s and doctoral students. Nouainia is fluent in Arabic and French and possesses a strong command of English.

profile

Scopus

  • 🎓 Education 

    Nouainia Ahmed earned his Ph.D. in Physics in February 2019 from the Faculty of Sciences of Tunisia (FST) under the supervision of Professor Taoufik Aguili. His dissertation focused on modeling electromagnetic leakage in high-frequency systems and optimizing shielding efficiency. Earlier, in December 2012, he completed a specialized master’s degree at FST in Soft Matter Physics and Electromagnetic Modeling, where he experimentally determined the Landau coefficients of ferroelectric liquid crystals under the guidance of Professor Soltani Taoufik. In June 2010, Nouainia also received his master’s degree from FST. He has undergone various specialized formations and trainings in electromagnetic compatibility and cyber security. Nouainia’s academic background reflects his expertise in applied physics, particularly within the domain of communications and shielding technologies.

    🧑‍🏫 Experience 

    From 2019 to 2022, Nouainia Ahmed served as a Contractual Assistant Professor at the Higher Institute of Human Sciences of Jendouba, where he taught advanced physics courses such as Geometric Optics and Antenna Systems. In 2022-2023, he continued his role at the Higher Institute of Technology Studies of Jendouba (ISETJ), focusing on Electrical Safety, Signal Processing, and CAO labs. Simultaneously, from 2021 to 2023, Nouainia pursued postdoctoral research at the National Institute of Research and Physical and Chemical Analysis (INRAP). His areas of teaching expertise include satellite systems, antenna design, and data transmission. Additionally, Nouainia has supervised multiple students and engineers during his tenure, guiding them through master’s and doctoral programs as well as practical research projects.

    🏆 Awards and Honors 

    Nouainia Ahmed has achieved recognition for his contributions to the field of electromagnetic shielding and wave concept modeling. Throughout his academic and research career, he has been involved in international symposiums and conferences where his work was frequently highlighted and awarded. In particular, his participation at conferences such as the International Wireless Communications & Mobile Computing Conference (IWCMC) in Morocco and the Mediterranean Microwave Symposium (MMS) in France, among others, received significant accolades. His participation in renowned international research schools and forums, such as the Spring School of Electromagnetic Compatibility and the Forum for Electromagnetic Research Methods and Application Technologies (FERMAT), further exemplify his academic and research commitment. Although specifics regarding his formal awards remain limited, his achievements across various prestigious platforms and collaborative international engagements reflect his standing in the academic and research communities.

    🔬 Research Focus

    Nouainia Ahmed’s research primarily revolves around electromagnetic compatibility, shielding optimization, and high-frequency circuit design. His Ph.D. work focused on reducing electromagnetic interference (EMI) through improved shielding techniques, using innovative approaches like the Method of Moments-Generalized Equivalent Circuit (MoM-GEC). He has extended this expertise to applications in waveguide shielding, antenna design for wireless communications, and digital signal processing. His contributions to understanding electromagnetic diffraction and interference control have practical implications in both academic and industrial settings. Throughout his career, he has collaborated with international teams, enhancing his work in reconfigurable antennas, microwave structure modeling, and wireless communications. His postdoctoral research at the National Institute of Research and Physical and Chemical Analysis (INRAP) explored new techniques in RF circuit optimization and shielding effectiveness, emphasizing the development of more efficient and sustainable communication systems.

Publications Top Notes:

 

 

 

 

 

 

 

  • Wave concept in MoM-GEC formalism
    • Authors: Nouainia, A., Hajji, M., Aguili, T.
    • Conference: 2017 International Applied Computational Electromagnetics Society Symposium – Italy (ACES 2017), 7916331

 

Meisong Tong | Electronic Science | Best Researcher Award

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Prof Dr. Meisong Tong | Electronic Science | Best Researcher Award

Distinguished/Permanent Professor at Tongji University,  China

Mei Song Tong is a distinguished professor and Vice Dean at Tongji University, Shanghai, China. He specializes in electromagnetics, RF/microwave circuits, and antenna design. He earned his Ph.D. from Arizona State University and has held academic positions at the University of Illinois. Tong has authored multiple books and over 90 papers in Chinese and international journals. He is renowned for his research contributions in electromagnetic field theory and microwave engineering, holding prestigious positions in both Chinese and international academic communities.

Publication profile

Scopus

🎓 Education

Ph.D. in Electrical Engineering, Arizona State University, USA (2004) – focused on electromagnetics, RF/microwave circuits, antenna theory, and inverse scattering. M.S. in Electrical Engineering, Huazhong University of Science and Technology, Wuhan, China (1988) – specialized in electromagnetic field and microwave engineering. B.S. in Electrical Engineering, Huazhong University of Science and Technology, Wuhan, China (1985) – specialized in electromagnetic field and microwave engineering.

🏢 Professional Experience

Professor and Vice Dean, College of Microelectronics, Tongji University (2011–present). Visiting Professor, Department of Electrical and Computer Engineering, University of Illinois (2011–present). Research Scientist, University of Illinois at Urbana-Champaign (2007–2010). Postdoctoral Research Associate, Arizona State University (2004–2007). Electrical Engineer, Shanghai Institute of Microwave Technology (1988–2000).

🏅 Awards and Honors

Invited author for numerous electromagnetic engineering books. Recipient of multiple prestigious research grants and academic awards in China and the U.S. Honored as a Distinguished Professor and a key academic leader at Tongji University. Recognized for extensive contributions to microwave engineering and antenna design research. Published highly influential books, including “Integral Equation Methods for Electromagnetics” and “The Nyström Method in Electromagnetics.”

🔬 Research Focus

Electromagnetic field theory, RF/microwave circuits, and antenna design.Microwave circuit co-simulation with high-frequency electromagnetic fields. Developing volume integral equation solvers for electromagnetic scattering.Innovative methods in electromagnetics, including multiwavelets and Nyström schemes. Application of microwave and electromagnetic principles to remote sensing and circuit design.

Publication

  1. Sensorless Control of Interior Permanent Magnet Synchronous Motor Based on Hybrid Observer
    • Authors: Y.J. Gao, S.J. Yan, M.S. Tong, J.Y. Chen, Q. Chen
    • Published in: Scientific Reports (2024)

 

  1. Fast Braking of Segmented Electro-Pneumatic Braking System Using Fuzzy-PID Controller Optimized by Genetic Algorithm
    • Authors: L. Chen, Z.P. Zhou, Z.C. Wan, G.C. Wan, M.S. Tong
    • Published in: IEEE Transactions on Vehicular Technology (2024)

 

  1. High-Stability Crystal Oscillator with Controllable Oscillation Amplitude
    • Authors: L. Zhao, Z.C. Wan, M. Tong
    • Presented at: PIERS 2024

 

  1. Time-Modulated Metasurface with Polarization Division Multiplexing for Wireless Communication Systems
    • Authors: X.J. Lu, X. Yi Wang, M.S. Tong
    • Presented at: PIERS 2024

 

  1. Pre-training Deep Neural Network for Multiple Brain Regions Enhances Image Reconstruction
    • Authors: W.B. Zhu, R.Z. Gui, Y.Q. Wang, Y.M. Yin, M.S. Tong
    • Presented at: PIERS 2024

 

  1. Dualband Microstrip Patch Antenna for 5G Mobile Communication
    • Authors: S.T. Li, J.H. Wang, L. Chen, M.S. Tong
    • Presented at: PIERS 2024

 

  1. Multi-modal Analysis of Waveguides for Permittivity and Permeability Retrievals
    • Authors: B.O. Zhu, X.Y. Li, M.S. Tong
    • Presented at: PIERS 2024

 

  1. Low-power Collaborative Control for Vehicle-grade Ambient Lighting System
    • Authors: W.B. Fu, L. Chen, J.H. Wang, M.S. Tong
    • Presented at: PIERS 2024

 

  1. Wearable Multi-sensor System for BioSignal Collection and Analysis
    • Authors: Z.C. Wan, G. Chun Wan, M.S. Tong
    • Presented at: PIERS 2024

 

  1. Polarization-reconfigurable Dielectric Resonator Antenna Using Liquid Materials
    • Authors: D.N. Lin, A.K. Poddar, U.L. Rohde, M.S. Tong
    • Presented at: PIERS 2024

 

Conclusion:

Dr. Mei Song Tong stands out as a leading researcher in the field of electromagnetic science and technology, with a strong academic background, prolific research output, and extensive international experience. His leadership roles, influential publications, and international collaborations make him a strong candidate for the “Best Researcher Award.” With further focus on international publications and interdisciplinary innovations, he has the potential to elevate his already significant contributions to the global research community.