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793
- Prof. Yoo’s recent paper has been accepted for publication in IEEE AWPL (Antennas and Wireless Propagation Letters)
- Prof. Yoo’s (Meta Electromagnetics Research Group) recent paper entitled “Design of Rectangular Waveguide-fed Metasurfaces for Near-Field Shaping using a Coupled Dipole Model” has been accepted for publication in IEEE AWPL, one of the premier journals in the field of applied electromagnetics. This work was conducted in collaboration with Prof. Yurduseven (Queen’s University Belfast), Prof. Fromenteze (University of Limoges), Dong Hwan Min (Yonsei University), and Prof. Insang Yoo at Yonsei University.
- 전기전자공학부 2026.04.24
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792
- Prof. Dosik Hwang’s Lab Four Papers Accepted to CVPR 2026
- Four papers(Highlight 1, Poster 3) from Professor Dosik Hwang’s research group have been accepted to CVPR 2026, the world’s leading conference in computer vision (Rank #1 in Computer Vision & Pattern Recognition, H5-index = 450), and will be presented at the conference. This work was led by students Kyungwon Kim (first author), Hyunkyu Kim (co-first author), Hyeseong Kim (first author), Youngjun Song (first author), and Geonhui Han (co-first author), under the supervision of Professor Dosik Hwang (corresponding author).
- 전기전자공학부 2026.04.24
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791
- Donggun Lee, M.S. Student (Prof. Tae Wook Kim), Paper Accepted at VLSI 2026
- Prof. Tae Wook Kim’s research team developed a new modulation scheme, ER-DPSK, for IR-UWB communication, achieving 3.25 Gbps and 0.76 pJ/bit in the transmitter. This represents the world’s first 3 Gbps-class UWB and the world’s first transmitter to break 1 pJ/bit limit. The work is scheduled to be presented at the VLSI 2026 (June, Hawaii). This research was supervised by Prof. Tae Wook Kim (corresponding author), and led by first author Donggun Lee, a master’s student.
- 전기전자공학부 2026.04.24
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790
- Kyu-Jong Choi (Prof. Byung-Wook Min’s Team) Published in IEEE Journal of Solid-State Circuits
- The research group of Prof. Byung-Wook Min at the Microwave Integrated Circuits and Systems Laboratory proposed a bidirectional amplifier based on a transformer-feedback cascode structure, operating without an SPDT switch. The design utilizes the off-state amplifier as a matching element, achieving both bandwidth extension and area reduction without additional matching networks. This work was published in the IEEE Journal of Solid-State Circuits (JSSC), with an impact factor of 5.6. (2025.11.04.) This work was supervised by Prof. Byung-Wook Min (corresponding author) and led by graduate student Kyu-jong Choi (first author).
- 전기전자공학부 2026.04.24
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789
- Gisung Yang and H. Cho (Prof. Byung-Wook Min’s Team) Published in IEEE Transactions on Wireless Communications
- Prof. Byung-Wook Min’s team (Microwave Integrated IC & Systems) developed a self-interference (SI) canceller circuit required for full-duplex communications and significantly improved the cancellation rate by proposing a SI analysis method to control the canceller. This work has been published in IEEE Transactions on Wireless Communications (IF=10.7). (2026.02.12.) This work was supervised under Prof. Byung-Wook Min and led by Dr. Gisung Yang.
- 전기전자공학부 2026.04.24
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788
- Dr. Tae Young Kim (Prof. Jungmok Seo’s Research Group) Paper Accepted in Bioactive Materials
- The research team led by Prof. Jungmok Seo has received acceptance for their paper titled “Slippery dopamine–fluoropolymer hybrid surface for improving biliary stent longevity” in Bioactive Materials (Impact Factor: 20.3). In this study, an anti-fouling coating was applied to implantable biliary stents to effectively address stent occlusion. Furthermore, in a rabbit model, the coated stent demonstrated stable functionality over a mid- to long-term period exceeding two months after implantation.
- 전기전자공학부 2026.04.24
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787
- Soo A Kim (Prof. Jungmok Seo’s Research Group) Paper Accepted in Advanced Materials
- The research team led by Prof. Jungmok Seo has received acceptance for their paper titled “Ion‑mediated Structural Engineering of Hydrogel Interfaces for Tunable Mechanical and Analyte Diffusion Properties in Electrochemical Biosensors” in Advanced Materials (Impact Factor: 26.8). This study applied ion-mediated structurally engineered hydrogels to biosensors to overcome the trade-off between mechanical strength and analyte diffusion. Furthermore, when integrated into wearable and implantable sensors, the system enabled stable long-term monitoring across a wide concentration range.
- 전기전자공학부 2026.04.24
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786
- Mr. Dongwook Kim (Prof. Kyuho Lee), Selected as a Highlight Paper in theIEEE Transactions on Circuits and Systems I: Reg
- A paper by Dongwook Kim from Professor Kyuho Lee’s Intelligent Systems Lab was selected as a Highlight Paper in the February 2026 issue of IEEE Transactions on Circuits and Systems I: Regular Papers, recognizing its contribution to AI hardware research. (2026.02.22.) The paper presents an ReRAM-based compute-in-memory (CIM) processor for Keyword Spotting in Mobile Devices.
- 전기전자공학부 2026.04.24
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785
- Mr. Sunhong An (Prof. Kyuho Lee), Selected as a Highlight Paper in the IEEE Transactions on Very Large Scale Integration
- A paper by Sunhong An from Professor Kyuho Lee’s Intelligent Systems Lab was selected as a Highlight Paper in the January 2026 issue of IEEE Transactions on Very Large Scale Integration (VLSI) Systems, recognizing its contribution to VLSI and AI hardware research. (2026.01.24.) The paper presents an eDRAM-based compute-in/near-memory processor for transformer-based large language models (LLMs).
- 전기전자공학부 2026.04.24
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784
- Prof. Myung-Jae Lee’s Team (Hyun-Seung Choi, Seyoung Yook) Publishes Research in APL Photonics
- A paper titled “Optimization of Backside-Illuminated Single-Photon Avalanche Diodes in 90 nm CIS Technology for Scintillator-Based Biomedical Applications,” authored by the research group of Prof. Myung-Jae Lee has been accepted for publication in APL Photonics, a top-tier international journal in optics and photonics published by AIP Publishing. This paper presents an optimized backside-illuminated SPAD design for scintillator-based biomedical applications, significantly enhancing device performance and establishing a key technological foundation for biomedical imaging.
- 전기전자공학부 2026.04.24