Minoo Eghtesadi | Engineering | Best Researcher Award

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Mrs. Minoo Eghtesadi | Engineering | Best Researcher Award

University of Catania | Italy

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Early Academic Pursuits 🎓

Mrs. Minoo Eghtesadi's journey in the field of electronics began with a Bachelor of Science in Electronic Engineering from Khajeh Nasir Toosi University of Technology, Tehran, where she ranked among the top undergraduate students. She further honed her expertise by pursuing a Master of Science in Electronic Engineering at Iran University of Science and Technology (IUST), where she excelled academically, ranking third among her peers.

Professional Endeavors 💼

Mrs. Eghtesadi has accumulated valuable professional experience in the field of electronics. She worked as an Electronic Engineer at MDF Group in Tehran, where she was involved in various roles, including content creation for social networks, web design, social network management, and marketing content development. Her experience also extended to import and export operations, showcasing her versatility in both technical and managerial capacities.

Contributions and Research Focus 🔬

Mrs. Eghtesadi’s research primarily focuses on Analog and RFIC (Radio Frequency Integrated Circuit) Design, with a particular interest in mm-wave IC Design. Her Ph.D. research at the University of Pavia & University of Catania revolves around the design, fabrication, and characterization of 28-nm CMOS ICs for ultra-low-power 60-GHz receivers, aimed at high bit-rate communication applications. Her earlier research includes designing a concurrent dual-frequency Low Noise Amplifier (LNA) for GPS/GLONASS receivers, as well as developing an RFID Reader with an impressive range exceeding 100 meters.

Accolades and Recognition 🏆

Throughout her academic and professional career, Mrs. Eghtesadi has received several prestigious accolades. Most notably, she was awarded the Gold Leaf Award for her paper titled “A 28-nm CMOS 60-GHz LNA for OOK Low Power Receivers” at the 19th International Conference on PhD Research in Microelectronics and Electronics (PRIME2024) held in Cyprus. This recognition underscores her significant contributions to the field of microelectronics.

Impact and Influence 🌍

Mrs. Eghtesadi’s research and professional activities have had a profound impact on the field of electronics, particularly in the areas of RFIC design and mm-wave technology. Her work on low-noise amplifiers and RFIC design for high-frequency applications is paving the way for advancements in communication technology, influencing both academic research and industry practices.

Legacy and Future Contributions 🔮

As Mrs. Eghtesadi continues her Ph.D. research, she is poised to make further contributions to the field of micro and nano-electronics. Her future work will likely explore new frontiers in RFIC design, potentially leading to innovations in wireless communication technologies. With her strong academic background, professional experience, and research expertise, Mrs. Eghtesadi is well-positioned to leave a lasting legacy in the world of electronics.

 

Publications 📚

📜A Pseudo-Differential LNA with Noise Improvement Techniques for Concurrent Multi-Band GNSS Applications
Author(s): M. Eghtesadi, M.R. Mosavi, E. Ragonese
Journal: Electronics (Switzerland)
Year: 2024

📜A 28-nm CMOS 60-GHz LNA for OOK Low-Power Receivers
Author(s): M. Eghtesadi, G. Giustolisi, S. Pennisi, E. Ragonese
Conference: 2024 19th Conference on Ph.D Research in Microelectronics and Electronics (PRIME 2024)
Year: 2024

📜A Concurrent Dual-Band Low Noise Amplifier for GNSS Receivers
Author(s): M. Safari, M. Eghtesadi, M.R. Mosavi
Journal: Iranian Journal of Electrical and Electronic Engineering
Year: 2016

 

Nam-Phuong Tran | Computer Science | Best Researcher Award

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Mr. Nam-Phuong Tran | Computer Science | Best Researcher Award

Chung-Ang University | South Korea

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Early Academic Pursuits

Mr. Nam-Phuong Tran began his academic journey at Hanoi University of Science and Technology, Vietnam, where he pursued a Bachelor of Engineering in Computer Science, completing it from August 2015 to June 2020. His thesis, "Spatio-Temporal Dynamics of the Labor Market," showcased his early dedication to research. Subsequently, he pursued an MSc of Science in Computer Science at Chung-Ang University, Seoul, Korea, focusing on QoE Management for Video Streaming Systems over IRS-aided RSMA Networks under the guidance of Professor Sungrae Cho.

Professional Endeavors

Tran has diversified professional experience, ranging from software engineering to research roles. He worked as a Software Engineer at Viettel Digital Service and as a Graduate Research Assistant at the Ultra-Intelligent Computing/Communication Lab, Chung-Ang University. Additionally, he has served as a Software Developer, Data Scientist Intern, and Undergraduate Research Assistant, gaining exposure to various facets of computer science and engineering.

Contributions and Research Focus

Tran's research primarily revolves around improving Quality of Experience (QoE) in communication networks, focusing on topics such as wireless resource allocation, bitrate adaptation, and low-latency protocols. His expertise spans intelligent reflecting surfaces, rate-splitting multiple access, IoT, deep learning, reinforcement learning, federated learning, and multimedia over wireless networks. He has also delved into big data analytics, including data crawling, mining, visualization, and predictive analytics.

Accolades and Recognition

Tran's dedication to academia has been acknowledged through numerous awards and scholarships, including the Chung-Ang University Young Scientist Scholarship, Brain Korea 21 Graduate School Research Scholarship, Daewoong AI Big Data Scholarship, and the Shinhan Bank Scholarship. He has also received recognition for his programming skills and outstanding thesis presentation.

Impact and Influence

Tran's research contributions, particularly in the realm of improving QoE in communication systems, have the potential to influence the development of more efficient and user-centric network protocols. His work in wireless resource allocation, bitrate adaptation, and low-latency protocols could lead to significant advancements in multimedia streaming, IoT, and metaverse applications, shaping the future of communication technologies.

Legacy and Future Contributions

Tran's legacy may lie in his interdisciplinary approach to addressing challenges in communication networks and big data analytics. His research outputs and professional endeavors are poised to contribute to advancements in wireless communication, machine learning applications, and data-driven decision-making. With his demonstrated commitment to excellence and innovation, he is likely to continue making notable contributions to the field of computer science and engineering, both in academia and industry.

Notable Publications

Joint wireless resource allocation and bitrate adaptation for QoE improvement in IRS-aided RSMA-enabled IoMT streaming systems 2024

Privacy-Preserving Traffic Flow Prediction: A Split Learning Approach 2023

Delay-constrained quality maximization in RSMA-based video streaming networks 2022

A Survey on Intelligent Reflecting Surface-aided Non-Orthogonal Multiple Access Networks 2022

A Survey on Passive Beamforming using Statistical State Information in Intelligent Reflecting Surface Assisted Networks 2022