-
11
- Kim Jae-koo ( Ph.D student) IEEE Transactions on Power Electronics Papers (Clamping-Angle Contro
- Jae-Goo Kim (Ph.D. course) and Prof. Jung-Wook Park in Power & Control System Lab (PCSL) will publish the paper of “Clamping-Angle Control PWM Method to Restore Linear Modulation Range of Voltage Source Inverter” in IEEE Transactions on Power Electronics in 2018. IEEE Transactions on Power Electronics is one of the top-class journal in electrical & electronics area, and it is classified as Q1. The impact factor of journal is 7.151 (based on 2016 JCR report).
- 전기전자공학부 2018.04.03
-
10
- Professor Hyun-Yong Choi Research Team Topological Insulator Grating Vibration Research Nano Letters
- Prof. Hyunyong Choi’s research team has succeeded in controlling the phonon vibration of the topological insulator using the coherent motion of electrons and published it in the word scientific journal ‘Nano Letters’ This study was led by Prof. Hyunyon Choi (correspondent) and Chihun In (first author) of Yonsei Univ. Prof. S. Aloysius in Yonsei Univ., Prof. M.-H. Ham in GIST, Prof. H. Lee in Soongsil Univ., Prof. D. Kim in Seoul National Univ. Prof. M.-H. Jo in POSTECH, and prof. S. Oh in Rutgers Univ. participated in this work jointly.
- 전기전자공학부 2018.04.03
-
9
- Professor Choi, Hyun-Yong Research Team Two-dimensional material quantum beating phenomenon study Publication in Nature
- Prof. Hyunyong Choi’s research team announced the new technology that can control quantum beating phenomenon using ultra-high-speed lasers and Group VII transition metal dichalcogenide (TMD) compound rhenium disulfide (ReS2) in the world scientific journal ‘Nature Communications’. This study is led by Prof. Hyunyong Choi (correspondent) and Dr. Sangwan Sim (co-first author) and Doeon Lee (co-first author) from the master’s course of the Yonsei University. Prof. Moon-ho Jo of POSTECH (correspondent) and prof. Wooyoung Shim of Yonsei University participated in the joint research.
- 전기전자공학부 2018.04.03
-
8
- Prof. Choe's Publication in IEEE Transactions on Image Processing (TIP)
- Prof. Choe and JiEun Lee ‘s paper entitled by “Robust PCA Based on Incoherence with Geometrical Interpretation” is decided to be published in April 2018 at IEEE Transactions on Image Processing (TIP) (8% on JCR Ranking, Impact factor 4.83). This study was led by JiEun Lee (1st author) and Professor Yoonsik Choe (Correspondence author) in department of electrical and electronic engineering at Yonsei University.
- 전기전자공학부 2018.02.14
-
7
- Prof. Sohn wins IEEE Chester Sall Paper Award
- Awarded by the IEEE Consumer Electronics Society, Prof. Sohn’s research group has received the Chester Sall Paper Award for their paper: "Non-Parametric Human Segmentation Using Support Vector Machine". This award is to recognize the best papers recently published in the IEEE Transactions on Consumer Electronics. Every year, the awards are given at the IEEE International Conference on Consumer Electronics (ICCE) which is jointly held with Consumer Electronics Shows (CES), Las Vegas, US. This work is done by Dr. Kyuwon Kim (1st author) and Prof. Kwanghoon Sohn (corresponding author).
- 전기전자공학부 2018.02.14
-
6
- 2018 Korea-United Kingdom Focal Point Workshop
- Prof. Kwanghoon Sohn, Prof. Hong-Goo Kang, Prof. Sangyoun Lee, Young-Cheol Park and Prof. Bumsub Ham organize a KR-UK workshop together with professors and researchers in Centre for Vision, Speech & Signal Processing (CVSSP) in University of Surrey, UK. This is supported by National Research Foundation of Korea and British Embassy Seoul. Invited speakers from Yonsei University, G’Audio Lab, BBC, University of Surrey, and University of Southampton give talks and demos related to audio-visual representations. They have a plan to further collaborate each other through EU-Korea projects.
- 전기전자공학부 2018.02.14
-
5
- Professor Taeyoon Lee's Publication in ACS NANO
- Professor Taeyoon Lee's research team developed a system that can manipulate micro/nano-scale volume of droplets. By using this system, various biological markers present in the human body can be detected with only single drop of body fluid such as blood, plasma, tears, and urine. This study was accepted by ACS NANO (IF: 13.942), a prestigious journal in the field of nanoscience with 3.27%. This work was carried out by Heetak Han (Ph.D. student) under the leadership of Prof. Taeyoon Lee (Yonsei University) and Dr. Jungmok Seo (Korea Institute of Science and Technology). This work was also supported by the Korea Research Foundation.
- 전기전자공학부 2018.02.14
-
4
- Prof. Jong-Moon Chung's Publication in IEEE Transactions on Wireless Communications
- Prof. Jong-Moon Chung and his research team published the ‘LTE-R Handover Point Control Scheme for High-Speed Railways’ research paper in the Dec. 2017 IEEE Wireless Communications. The IEEE Wireless Communications is one of the top-class journal within top 1~3% in areas of Electrical & Electronic, Telecommunication, Information Systems, and Computer Science Hardware & Architecture. The Impact factor of the journal is 8.972.
- 전기전자공학부 2018.02.14
-
3
- Professor Hyun Jae Kim's Award from National Academy of Engineering of Korea
- The National Academy of Engineering of Korea, which has Korea’s top engineering technology experts including industry experts and professors of engineering as members, had selected 238 individuals who has contributed to the development of the future technologies for 10 months from February 2017 with the participation of 120 industry, academia, and research experts during the selection process in order to discover 100 technologies. Professor Hyun Jae Kim has contributed to the research of oxide semiconductors, a key technology in the production of display backplanes, and thus was chosen for one of the top 100 technologies and leaders.
- 전기전자공학부 2018.02.14
-
2
- Professor Ki Jun YU's Publication in ACS Nano
- Functional Bio-integrated Electronics research team have developed a passive, bioresorbable electrode array with an ultra-thin Si encapsulation barrier. In vivo neural recordings with the bioresorbable neural sensors in adult rat animal models showed good performance associated with both action potentials and local field potentials. This particular device functions for a programmed time period and slowly dissolves in the body over time such that the secondary surgery to extract the device is not required. The National Research Foundation supported this research. The new results are published in the journal of ACS Nano.
- 전기전자공학부 2018.02.14