Palaystint Thorng | Microwave Circuit Design | Best Researcher Award

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Mr. Palaystint Thorng | Microwave Circuit Design | Best Researcher Award

Mr. Palaystint Thorng, Integrated Master’s and PhD Student, Jeonbuk National University, South Korea.

Palaystint Thorng is an emerging researcher pursuing an Integrated Master’s and PhD degree at Jeonbuk National University, South Korea. His research lies at the intersection of microwave circuit design and artificial intelligence, with a focus on co-designing integrated amplifier-phase shifters for MIMO systems and developing AI-assisted digital predistortion techniques for high-power RF amplifiers. As Chair of the IEEE MTT-S Student Branch Chapter at JBNU, he has demonstrated leadership in both academic and technical forums. With publications in reputed IEEE and Applied Sciences journals, Thorng’s innovative contributions aim to advance the efficiency and miniaturization of next-generation wireless communication hardware.

Publication Profile

Scopus

Google Scholar

🎓 Education Background

Palaystint Thorng is currently enrolled in an Integrated Master’s and PhD program at Jeonbuk National University, South Korea. His academic journey is centered around electronics and microwave engineering, with a strong emphasis on RF circuit integration and AI applications. Through rigorous coursework and research under expert supervision, he has gained proficiency in microwave component co-design, electromagnetic simulation, and experimental prototyping. His formal education blends theoretical foundations with hands-on practical skills in RF measurement techniques, digital modeling, and front-end circuit implementation for modern wireless systems, making him a versatile and highly capable researcher in the field of microwave engineering.

💼 Professional Experience

As a full-time Integrated Master’s and PhD student at Jeonbuk National University, Palaystint Thorng is engaged in high-impact research projects within the Microwave Circuits Design Lab. He has contributed to the design, fabrication, and measurement of compact RF components for MIMO systems and is currently focusing on AI-based digital predistortion techniques for RF amplifiers. His professional exposure includes presenting at top-tier IEEE conferences such as APMC, EuMC, and IMBioC. While he has not yet undertaken industry consultancy, he actively collaborates with senior researchers and is open to future industrial partnerships that align with his expertise in microwave systems and AI.

🏆 Awards and Honors

Although early in his career, Palaystint Thorng has demonstrated outstanding research potential, leading to his nomination for the Best Researcher Award under the International Research Scientist Awards. As Chair of the IEEE MTT-S Student Branch Chapter at JBNU and a student member of KIEES, he has earned recognition for his leadership and technical excellence in the field of RF and microwave engineering. His peer-reviewed publications and consistent academic performance reflect his growing reputation in the scholarly community. Future awards and honors are anticipated as his contributions to AI-integrated microwave circuits continue to evolve and gain recognition.

🔬 Research Focus

Palaystint Thorng’s research is focused on co-designing compact, high-efficiency microwave amplifier and phase shifter systems for MIMO communication, along with developing AI-assisted digital predistortion (DPD) models to enhance RF power amplifier performance. His work integrates simulation, design, fabrication, and testing of innovative RF components such as filtering power dividers, bandpass filters, and tunable quasi-circulators. His ongoing research targets improving linearity and bandwidth in high-power systems while minimizing circuit size, aligning with 5G and future wireless standards. By blending microwave engineering with AI algorithms, he contributes significantly to next-generation RF front-end development.

🔚 Conclusion

Palaystint Thorng is a highly driven and technically skilled young researcher whose interdisciplinary work is paving the way for more efficient and compact microwave circuits in wireless communication. Through academic excellence, leadership roles, and research innovations, he exemplifies the qualities of a next-generation research scientist. His contributions to co-design and AI-assisted modeling offer practical solutions to current RF challenges. As he continues his doctoral journey, he remains committed to advancing integrated microwave design, fostering industry collaboration, and contributing impactful knowledge to both academia and the wireless engineering community.

📚 Top Publications with Notes

  1. Co-Design of Integrated Microwave Amplifier and Phase Shifter Using Reflection-Type Input Matching Networks for Compact MIMO Systems
    Applied Sciences, 2025 | Cited by: Indexing in progress

  2. Multi-Functional Filtering Power Divider with Tunable Center Frequency and Isolator Functionality
    2024 54th European Microwave Conference (EuMC) | Cited by: 1

  3. Design of Quarter-Mode SIW BPF with Ultra-Wide Stopband and Impedance Matching Functionality
    2025 IEEE MTT-S IMBioC

  4. Quasi-Elliptic Tunable Bandpass Filter With Controllable Transmission Zero Locations
    2025 IEEE MTT-S IMBioC

  5. Frequency Tunable Filtering Power Divider With Arbitrary Power Division Ratio and Transmission Zeros
    2025 IEEE MTT-S IMBioC

  6. A Design of Filtering Quasi-Circulator Using Time-Modulated Resonators
    2024 IEEE Asia-Pacific Microwave Conference (APMC)

  7. Design of SIW BPF Matching Network with Ultra-Wide Stopband and High Out-of-Band Signal Suppression Characteristics
    2024 IEEE Asia-Pacific Microwave Conference (APMC)