Publications

Journal

[J11] Taeyeon Oh†, Minwoo Song†, Hyunkeun Lee†, Hansu Kim, Hyeongbeom Lee, Yong-Ryun Jo, Tae-Wook Kim, Gui Won Hwang, Jinhyung Kim, Jihun Son, Chanhyeok Park, Hanbit Jin, Chan-Hwa Hong, Inho Lee, Jun-Gyu Choi, Ji Hwan Kim, Alexander Tipan-Quishpe, Myung-Han Yoon, Hye Jin Kim*, Changhyun Pang**, and Sungjun Park***, "Skin-adhesive Stretchable Conductors for Wireless Vital Diagnostics", Materials Science and Engineering: R: Reports, 2025.

[J10] Donghwan​ ​Seo, Jung-Geun​ ​Kim, Injune​ ​Yeo, Hyunkeun​ ​Lee, and Byung-Geun​ ​Lee​, "Analysis of Pixel Noise in Dynamic Vision Sensors", IEEE Transactions on Circuits and Systems-I, 2025.

[J9] Ankur Singh, Dowon Kim, Hyunkeun Lee, and Byung-Geun Lee, "A High-Frequency CMOS Meminductor Emulator for Spiking Neuron", IEEE Transactions on Circuits and Systems-I, 2025.

[J8] Sung-Hoon Cho, Donghwan Seo, Hyunkeun Lee, and Byung-Geun Lee, "Eye Tracker with In-pixel Signal Processing for Fast Eye Tracking", IEEE Sensors Journal, 2024.

[J7] Gookseon Jeon, Hohyun Keum, Hyunkeun Lee, Kyunghwan Oh, and Janghee Choi, "Effects of feature engineering on the robustness of laser-induced breakdown spectroscopy for industrial steel classification", Spectrochimica Acta Part B: Atomic Spectroscopy, 2024.

[J6] Sang-Gyun Gi, Hyunkeun Lee, Jingon Jang, and Byung-Geun Lee, "A ReRAM-based Convolutional Neural Network Accelerator using the Analog Layer Normalization Technique", IEEE Transactions on Industrial Electronics, 2023.

[J5] Hyunkeun Lee, Woo-Tae Kim, Jinho Kim, Myonglae Chu, and Byung-Geun Lee, "A Compressive Sensing CMOS Image Sensor with Partition Sampling Technique", IEEE Transactions on Industrial Electronics, 2021.

[J4] Woo-Tae Kim, Hyunkeun Lee, Jung-Gyun Kim, and Byung-Geun Lee, "An On-Chip Binary-Weight Convolution CMOS Image Sensor for Neural Networks", IEEE Transactions on Industrial Electronics, 2021.

[J3] Hyunkeun Lee, Jinyoung Choi, Seungheon Kim, Sung Chan Jun, and Byung-Geun Lee, "A Compressive Sensing-Based Automatic Sleep-Stage Classification System With Radial Basis Function Neural Network", IEEE Access, 2019.

[J2] Woo-Tae Kim, Cheonwi Park, Hyunkeun Lee, Ilseop Lee, and Byung-Geun Lee, "A High Full Well Capacity CMOS Image Sensor for Space Applications", Sensors, 2019.

[J1] Hyunkeun Lee, Donghwan Seo, Woo-Tae Kim, and Byung-Geun Lee, "A Compressive Sensing-Based CMOS Image Sensor With Second-Order ΣΔ ADCs", IEEE Sensors Journal, 2018.

Conference (Domestic)

[C5] Hasung Kim, Hyunjin Kim, Sejin Yoon, Chanhyeok Park, Hohyun Keum, Hyunkeun Lee,  "A dynamic object detection based on event vision sensor for low-data monitoring system", Conference on ESA, 2025.

[C4]  Hyunjin Kim, Chanhyeok Park, Yujin Kim, Hyunkeun Lee, "Hardware-Software co-simulation for efficent compressive sensing of ECG signals", ITC-CSCC, 2025

[C3]  Yujin Kim, Chanhyeok Park, Janghee Choi, Hohyun Keum, Hyunkeun Lee,  "Compressive sensing system for ECG signal classification", MEMS SAC', 2025.

[C2]  Chanhyeok Park, Yujin Kim, Wootae Kim, Hohyun Keum, Hyunkeun Lee, "A compressive sensing hardware for low-power ECG signal transmission", IEIE SAC', 2025.

[C1]  Kyungho Jo, Chanhyeok Park, Yujin Kim, Hyunken Lee, "Pattern-driven edge-Senputing hardware for efficient bearing fault classification", IEIE AAC', 2024.

Patents

[P11] KR(Registered), "Abnormal Signal Detecting Method of Rotor Having Mode Switch Technique Based on Operation State of Rotor", No. 1026896150000.

[P10] KR(Registered), "Image sensor and image recognition apparatus using the same", No. 10-2094275-0000.

[P9] KR(Registered), "Image sensor and image recognition apparatus using the same", No. 10-2020-0111303.

[P8] US (Registered), “Compressive Sensing Image Sensor Capable of Enhancing Frame Rate and Method of operating thereof”, No. 19757360.

[P7] US (Applied), “Image sensor and image recognition apparatus using the same”, US. 11223785 B2.

[P6] KR (Registered), “Image sensor and image recognition apparatus using the same”, No. 10-2018-0143366.

[P5] PCT (Applied), “Compressive Sensing Image Sensor Capable of Enhancing Frame Rate and Method of operating thereof”, PCT/KR2018/010212.

[P4] KR (Registered), “Method for Compressive sensing using high-order sigma-delta modulator for Image sensor and an Image sensor using high-order sigma-delta modulator”, No. 10-2017-0147583.

[P3] KR (Registered), “Compressive Sensing Image Sensor Capable of Enhancing Frame Rate and Method of operating thereof”, No. 10-2017-0135944.

[P2] KR (Applied), “Operation Method of Image Sensor using the Method”, No. 10-2017-0083500.

[P1] KR (Registered), “Method for Enhancing Image Quality of Compressive Sensing Image Sensor”, No. 10-1741754