Mr. Pawan Gaire | Applied Electromagnetics | Best Researcher Award

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Mr. Pawan Gaire | Applied Electromagnetics | Best Researcher Award

University of Nebraska Lincoln, United States.

Pawan K. Gaire is a Ph.D. candidate in Electrical Engineering at the University of Nebraska-Lincoln, specializing in electromagnetic (EM) simulation, numerical modeling, and RF/antenna design. With expertise in tools like HFSS, ADS, and COMSOL, he has a strong background in designing innovative wireless communication and power transfer systems. His research focuses on advanced computational techniques, including Physics Embedded Neural Networks (PENN) for solving complex electromagnetic problems.

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🎓 Education

Mr. Pawan Gaire is a dedicated scholar in the field of Electrical Engineering, currently pursuing his Ph.D. at the University of Nebraska-Lincoln (2022-2025) with a perfect GPA of 4.0. Prior to this, he earned his M.S. in Electrical Engineering from Florida International University (2019-2022), achieving an impressive GPA of 3.96. His academic journey began at Howard University, where he completed his B.S. in Electrical Engineering (2015-2019) with Summa Cum Laude honors and a GPA of 3.89. With a strong academic background and a commitment to excellence, Mr. Gaire continues to contribute to advancements in electrical engineering.

đź’Ľ Experience

Mr. Pawan Gaire has extensive research experience in electrical engineering, specializing in electromagnetics, antenna design, and wireless power transfer. Currently serving as a Research Assistant at the University of Nebraska-Lincoln (2022-Present), he has developed PENN, a novel neural network-based approach for solving Maxwell’s equations. His work also includes designing and fabricating sub-100 MHz multi-band antenna arrays using multiferroic heterostructures and simulating vector vortex wave generation for high-capacity tunnel communication.

Previously, as a Research Assistant at Florida International University (2019-2022), Mr. Gaire contributed to the development of an ad-hoc wireless power transfer system for smartphone charging and pioneered clothing-integrated rectifiers for efficient RF-to-DC conversion. Additionally, he conducted market validation for wearable charging devices under the NSF I-Corps program, showcasing his ability to bridge engineering innovation with commercial applications.

🛠️ Internships

SLAC National Accelerator Laboratory (2018) – Designed testbench for Hard X-ray systems.

DiCarlo Lab, MIT (2017) – Benchmarked AI models against primate vision.

Center for Integrated Quantum Materials (2016) – Fabricated and characterized diamond field-effect transistors.

🏆 Research Interests

Electromagnetic (EM) Simulation & RF Design: Expertise in Ansys HFSS, COMSOL, and ADS for antenna and circuit design.

Physics Embedded Neural Networks (PENN): Development of AI-driven solutions for scientific computing.

Wireless Power Transfer (WPT): Innovative antenna designs for efficient energy transfer.

Numerical Modeling & Computational Electromagnetics: Application of Finite Element Method (FEM) in RF systems.

🏅 Awards & Recognitions

NSF I-Corps Grant Recipient – Validated market demand for wireless charging solutions.

IEEE Conference Presenter – Multiple research presentations at premier EM and RF conferences.

Summa Cum Laude – Graduated with highest honors from Howard University.

đź“š Publications

Physics Embedded Neural Network: Novel Data-Free Approach Towards Scientific Computing and Applications in Transfer Learning
Neurocomputing, 2025-02 | Journal Article
DOI: 10.1016/j.neucom.2024.128936
Contributors: Pawan Gaire, Shubhendu Bhardwaj

Data-Free Solution of Electromagnetic PDEs Using Neural Networks and Extension to Transfer Learning
IEEE Transactions on Antennas and Propagation, 2022-07 | Journal Article
DOI: 10.1109/TAP.2022.3186710
Contributors: Shubhendu Bhardwaj, Pawan Gaire

An Ergonomic Wireless Charging System for Integration With Daily Life Activities
IEEE Transactions on Microwave Theory and Techniques, 2021-01 | Journal Article
DOI: 10.1109/TMTT.2020.3029530
Contributors: Dieff Vital, Pawan Gaire, Shubhendu Bhardwaj, John L. Volakis

 

 

Dr. Nadir Fouad Bedjiah | Automotive | Best Researcher Award

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Dr. Nadir Fouad Bedjiah | Automotive | Best Researcher Award

Stellantis, France.

Nadir Fouad Bedjiah is a dedicated RF/EMC Research and Innovation Engineer at OPmobility, Paris, specializing in 4D Radar technology. With a strong background in electromagnetic compatibility (EMC) and embedded systems, he has contributed significantly to research, development, and validation methodologies for autonomous systems and ADAS technologies. His expertise spans antenna design, dielectric waveguides, and radar chipset evaluation. Nadir is also actively involved in supervising PhD candidates, publishing patents, and presenting his work at international symposiums.

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🎓 Education

Nadir Fouad Bedjiah holds a Ph.D. in EMC and Embedded Systems from Rouen University / IRSEEM ESIGELEC, where he developed new EMC methodologies for autonomous systems. He earned his Master’s in Communicating Systems and RF from Sorbonne University, Paris, specializing in embedded electronic systems and radio frequencies. His Bachelor’s in Electronics, Electrical Energy, and Automation from University of Perpignan Via Domitia provided him with a strong foundation in circuit design, automation, and power electronics.

đź’Ľ Experience

Nadir Fouad Bedjiah is currently an RF/EMC Research Engineer at OPmobility (Plastic Omnium), where he works on 4D Imaging Radar technology by designing and simulating antennas, dielectric lenses, and waveguides at 77GHz. He is also involved in radar chipset RF evaluation, EMC validation, and supervising PhD candidates, contributing to patents and international symposiums.

Previously, he was a Research Engineer at Stellantis (Ex: PSA), where he developed EMC methodologies for ADAS and autonomous systems, designed autonomous EE architectures and embedded software, and worked on vehicle remote reboot solutions. He also gained research experience as an intern at SEGULA Matra Automotive, focusing on electromagnetic modeling of radar systems for ADAS.

🧑‍🔬 Research Interests

📡 RF & Antenna Design – Focus on 77GHz dielectric waveguide antennas
⚡ Electromagnetic Compatibility (EMC) – Developing radiated immunity validation methods
🚗 Autonomous Vehicle Systems – Studying ADAS EE architecture & autonomous functions
📊 Simulation & Modeling – Using CST, FEKO, MATLAB for advanced RF/EMC simulations

🏆 Awards & Recognitions

Best Paper Award at IEEE EMC Symposium

Recognized for innovative EMC methodologies in automotive industry

Contributor to patent publications in 4D Radar Technology

đź“š Publications

đź“– Journal Articles

🔹 Methodology to Validate the Radiated Immunity of Sophisticated Automotive Autonomous Systems – Sensors, 2025
🔹 Methodology to Validate the Radiated Immunity of Very Complex Systems by a Succession of Simple Component Radiated Immunity Tests at System Level – IEEE EMCSI, 2022

 

 

Dr. Michela Longhi | Metamaterials | Best Researcher Award

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Dr. Michela Longhi | Metamaterials | Best Researcher Award

Niccolò Cusano University, Italy,

Michela Longhi is an Italian researcher and engineer specializing in electromagnetics, artificial materials, and wireless systems. She holds multiple positions, including Associate Editor of the Nonlinear Engineering - Modeling and Application Journal and Partner of LabChain. Throughout her career, she has gained extensive experience in R&D engineering, particularly in the fields of RF devices, antennas, and electromagnetic fields, contributing significantly to the design and optimization of high-performance materials and systems. She has a PhD in Electromagnetic Engineering from the University of Rome "Tor Vergata," and has held numerous positions in prestigious institutions such as ETH Zurich, Microwave Vision Group, and Niccolò Cusano University. 🌍

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Education 🎓

Michela Longhi earned her PhD in Electromagnetic Engineering (European Label) from the University of Rome "Tor Vergata", where she conducted research at the Pervasive Electromagnetics Lab between November 2015 and October 2018. During her doctoral studies, she focused on the design and prototyping of RF devices for short-range sensing, specifically in drone applications, with real-world implications for Smart City infrastructure, precision agriculture, and supply chains.

In addition to her PhD, Michela completed an International PhD at ETH Zurich, working with the Autonomous Systems Lab from November 2017 to May 2018. Here, she gained hands-on experience in the development of intelligent robotic systems capable of autonomous operation in complex and dynamic environments, which further enriched her research and broadened her expertise in electromagnetics and robotics.

Michela also holds a Master’s Degree in Electronic Engineering from the University of Rome "Tor Vergata", where she developed a strong foundation in electromagnetic materials, RF engineering, and wireless communications.

Experience đź’Ľ

Michela Longhi is an accomplished researcher and academic, currently serving as an Associate Editor for the Nonlinear Engineering - Modeling and Application Journal and a Partner at LabChain, focusing on blockchain and innovation. She is also a founding member of the URSI WIRS and a Commission Member for the MUR Public Concourse. Since 2021, Michela has held roles as a Post-Doctoral Researcher and Professor at Niccolò Cusano University, specializing in upper limb exoskeletons and electromagnetic materials. She has extensive experience in RF engineering and system design from her time at Microwave Vision Group (MVG) and CNR, where she worked on advanced EMC technologies and neuromodulation research.

Research Interests 🔬

Antenna Design and Telecommunications

Michela has made significant contributions to antenna design, particularly in the context of 5G communication, telecommunications, and aerospace. Her work in these areas has helped advance the development of high-performance antennas and EMC technologies for a variety of industries.

Smart City and Precision Agriculture

In recent years, Michela has focused on the development of upper-limb exoskeletons for medical and assistive purposes, as well as innovations in electromagnetic materials tailored for smart city infrastructure and precision agriculture. These advancements aim to improve urban living and agricultural practices by integrating cutting-edge RF technologies into everyday applications.

Exoskeleton Development

A key part of Michela's research is the development and optimization of upper-limb exoskeletons, which have promising applications in rehabilitation and assistive technologies. Her work seeks to enhance mobility and quality of life for individuals with physical impairments through advanced electromagnetic and robotic systems.

Awards 🏆

Founding Member, URSI WIRS (Women in Radio Science), (2023 - Present)

IEEE WIE Communication Team, IEEE Women in Engineering (2023 - Present)

MUR Commission Member, Ministero dell’Università e della Ricerca (2021-2022)

Publications Top Notesđź“š

Optimization Tools for the Design of Meta-Covers for Linear Antenna with Beam- and Null-Steering Capabilities
Published in: Applied Sciences, 2025-01-08

A Statistical Approach for Robust Metasurfaces and Metasurface-Based RIS Engineering
Published in: IEEE Transactions on Antennas and Propagation, 2024-06

Phase-Gradient Huygens’ Metasurface Coatings for Dynamic Beamforming in Linear Antennas
Published in: IEEE Transactions on Antennas and Propagation, 2023

Array Synthesis of Circular Huygens Metasurfaces for Antenna Beam-Shaping
Published in: IEEE Antennas and Wireless Propagation Letters, 2023-11

A Statistical Approach for Robust Metasurfaces and Metasurface-Based RIS Engineering
Preprint: 2023-10-12