김세환 사진

김세환 | 의과대학 의예과

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    조교수

소개

Biography:
Sehwan Kim is Assistant Professor of Biomedical Engineering, Vice Director of Beckman Laser Institute Korea at the Dankook University in South Korea, and a joint appointment with the Beckman Laser Institute at University of California, Irvine, CA USA. His research interests are a IoT (Internet of Things) platform for wireless sensing and efficient energy harvesting and design and development low power platforms for the applications of biophotonics, medical devices, civil and environmental engineering.

Education
He received his Ph.D. in Electrical Engineering and Computer Science (EECS) from the University of California, Irvine (2011), under Prof. Pai Chou (Advisor) and Prof. Masanobu Shinozuka (co-advisor). He also worked as a post doctorate scholar at Center for Embedded and Cyber-physical Systems (CECS) at UC, Irvine. Since 2008, he has built a number of wireless sensor platforms, energy harvesting systems (NAVY project), and applications, including DuraMote for civil engineering (NIST project), and the wearable wireless sensor node for infant monitoring (NIH project).

Academic
He joined Dankook University as Research Professor in the Beckman Laser Institute Korea since February 2013 and became an Assistant Professor in the Department of Biomedical Engineering Electrical since September 2013. He worked on the miniaturized light source for biomedical applications and the Recursive algorithm for power optimization. He received the Low Power Design Contest Award in 2013 for his work on wireless embedded sensing systems.

Service
He served on the Technical Program Commitee for ASP-DAC in 2015, and has served on the Reviewer for numerous journals on IEEE Embedded Systems Letters, IEEE Transaction on Power Electronics, IEEE Sensors Journal, Smart Structures and Systems, and MDPI sensors.

Industry
Before joining academic area, he has 8-year industrial experience including Samsung Electronics Telecommunication Network R&D Center as a senior engineer for R&D of mobile phones.

교육철학

My educational philosophy is to use encouraging and supportive strategies, which can challenge students grow their full potential.

From my educational experiences, I know how valuable professor encouragement and consideration is for student's motivation. I intend to motivate students while teaching them to be intrinsically motivated through challenging yet supportive lessons and assignments.

In addition, as an Engineering professor, I desire to help the students understand and continue to learn about their engineering skills both theoretically and practically. I also believe that energetic and positive attitude from the professor are key elements to a successful learning environment.

학력

  • [2011] 박사 Univ. of California at Irvine 전자전기컴퓨터공학과 임베디드/바이오/에너지 센서 및 시스템

주요경력

  • 삼성전자 (2005-07-01)
  • Univ. of California, Irvine (2012-01-17)

주요연구분야

General interests:
- Low-power system design,
- IoT-based wireless sensors and systems,
- Medical devices using biophotonics,
- Efficient energy harvesting,

I work on the following topics in embedded systems:
- Platforms for wireless sensing, including both hardware and software
- Power for wireless sensors, including energy harvesting using supercapacitor-based storage
- Applications of embedded systems, including biomedical optics, lipid metalbolism, civil engineering, power and energy

컨설팅 가능 분야

- Platform design for IoT-based medical devices
- Low Power design for wearable or attachable sensing devices
- Design Optimization in terms of performance, power and cost
- Translational Research in Biomedical Optics
- Wireless Sensing Networks (WSNs)

연구업적

  • 일반논문[20180101] Developing a compact multiple laser diode combiner with a single fiber stub output for handheld IoT devices
  • 일반논문[20180101] Vision-Based Natural Frequency Identification Using Laser Speckle Imaging and Parallel Computing
  • 일반논문[20161201] Monitoring of Biological Changes in Electromechanical Reshaping of Cartilage Using Imaging Modalities
  • 일반논문[20160601] Operational modal analysis of reinforced concrete bridges using autoregressive model
  • 일반논문[20160201] Evaluation of mesotherapy as a transdermal drug delivery tool
  • 일반논문[20150701] Handheld-Level Electromechanical Cartilage Reshaping Device
  • 일반논문[20141118] A Recursive Solution for Power-Transmission Loss in DC-Powered Networks
  • 일반논문[20141101] Design and Performance Analysis of a Bio-optical Sub-assembly for Diffuse Optical Technologies
  • 일반논문[20140401] Real-time remote monitoring: the DuraMote platform and experiments towards future, advanced, large-scale SCADA systems
  • 일반논문[20130601] Analysis and Minimization of Power-Transmission Loss in Locally Daisy-Chained Systems by Local Energy Buffering
  • 일반논문[20130501] Long term monitoring of a cable stayed bridge using DuraMote
  • 일반논문[20130501] Remote Structural Health Monitoring Systems for next generation SCADA
  • 일반논문[20130501] Energy Harvesting Techniques for Remote Corrosion Monitoring Systems
  • 일반논문[20130401] Size and Topology Optimization for Supercapacitor-Based Sub-Watt Energy Harvesters
  • 일반논문[20111014] Design and Performance Analysis of Supercapacitor Charging Circuits for Wireless Sensor Nodes
  • 일반논문[20100701] Non-invasive Acceleration-based Methodology for Damage Detection and Assessment of Water Distribution Systems
  • 저서/역서[20150907] Energy Harvesting with Supercapacitor-Based Energy Storage
  • 지식재산권[20180223] 3차원 스캐닝 기술을 이용한 피사체 자외선 표적 광선 적용 방법(The method for UV targeted-phototherapy of subject using a 3D scanning technology)
  • 지식재산권[20180116] 입체적 인지를 통한 안구건조증 표적 진단 치료 장치 및 그 방법
  • 지식재산권[20180116] 호모다인 기반 확산 광 분광방법 및 시스템(Method and apparatus of Homodyne-based diffuse optical spectroscopic imaging)
  • 지식재산권[20180104] 구조물의 노후도 모니터링 장치 및 방법(APPARATUS AND METHOD FOR HEALTH MONITORING OF A STRUCTURE)
  • 지식재산권[20171220] 광파워 피드백 루틴 기반 호모다인 확산 광 분광 기기 및 방법
  • 지식재산권[20171026] 호모다인 기반 다채널 체성분 분석 장치 및 방법(Apparatus and method of Homodyne-based multi-channel body composition analyzing)
  • 지식재산권[20171019] 광 산란 방식 체지방 이미지화를 이용한 비만도 분석 시스템 및 방법(Apparatus and method for analyzing obesity using optical scattering - based body fat indexing and imaging techniques)
  • 지식재산권[20170919] 주파수 변조 방식 체지방 이미지화를 이용한 비만도 분석 시스템 및 방법(Apparatus and method for analyzing obesity using frequency modulation - based body fat indexing and imaging techniques)
  • 지식재산권[20170901] 안구건조증 진단 치료 장치 및 그 방법(DRY EYE SYNDROME DIAGNOSIS AND TREATMENT APPARATUS AND THE METHOD THEREOF)
  • 지식재산권[20170620] 부식기반 전원을 제어하기 위한 시스템 및 방법 그리고 이를 이용한 전력소모장치(SYSTEM AND METHOD FOR CONTROLLING CORROSION-ENABLED POWER SUPPLY AND LIGHT EMITTING APPARATUS USING THE SAME)
  • 지식재산권[20170426] 광산란 측정을 이용한 비만도 분석 장치 및 방법(Apparatus and method for analyzing obesity using light scattering)
  • 지식재산권[20170330] 광산란을 이용한 비만도 분석 및 처방 장치 및 방법 (Apparatus and method for analyzing obesity using light scattering and giving solution to obesity)
  • 지식재산권[20170208] 체지방 측정 장치 및 방법(bodyfat measuring device and bodyfat measuring method)
  • 지식재산권[20170103] 광 산란 방식 체지방 이미지화를 이용한 비만도 분석/처방 시스템 및 방법(Apparatus and method for analyzing obesity and giving solution to obesity using optical scattering - based body fat indexing and imaging techniques)
  • 지식재산권[20170103] 통증 제어를 위한 전류 제어 기반 전기기계적 연골 성형 장치(ELECTROMECHANICAL CARTILAGE RESHAPING APPARATUS BASED ON CURRENT CONTROL FOR CONTROLING PAIN)
  • 지식재산권[20161010] 약물전달기구
  • 지식재산권[20160510] 온도가 제어되는 레이저 다이오드 빔 합성 장치 및 방법
  • 지식재산권[20150209] 다파장 레이저 다이오드 빔 합성 장치
  • 지식재산권[20140930] 의료용 레이저 수신단의 APD 이득 안정화 방법(An APD gain stabilization method of medical laser receiver)
  • 지식재산권[20140826] 온도가 제어되는 레이저 다이오드 빔 합성 장치 및 방법
  • 학술발표[20171110] A Compact MD-NIR System for Smart Healthcare Platforms
  • 학술발표[20170421] An Innovative Approach to Diffuse Optical Spectroscopy and Imaging for Smart Healthcare Platforms (Invited)
  • 학술발표[20170421] Continuous-wave (CW) Near-infrared (NIR) Techniques for a Handheld Tissue Monitoring System
  • 학술발표[20170216] A Compact Untethered Multi-Wavelength Tissue Monitoring Systems Based on CW NIR Techniques (Invited)
  • 학술발표[20150210] A compact, multi-wavelength, and high frequency response light source for diffuse optical spectroscopy and imaging
  • 학술발표[20150209] A MD-NIR interactance based wireless sensing platform for the measurement of a subcutaneous fat thickness: a pilot study
  • 학술발표[20140813] Energy harvesting from anti-corrosion power sources
  • 학술발표[20140428] Development of Cartilage Reshaping Device using Electromagnetic Reshaping Technology
  • 학술발표[20131011] 광섬유기반 센싱기술을 이용한 스마트 감시 시스템
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