김소희
Kim, SoheeDepartment of Robotics and Mechatronics Engineering
학력
- 2001 ~ 2005university of saarland 박사
- 1998 ~ 2000한국과학기술원 석사
- 1994 ~ 1998한국과학기술원 학사
경력
- 2019 ~ Current대구경북과학기술원 / 교수
- 2015 ~ 2019대구경북과학기술원 / 부교수
- 2014 ~ 2015광주과학기술원 / 부교수
- 2009 ~ 2015GIST / 조교수/부교수
- 2009 ~ 2014University of Utah / Adjunct Assistant Prof.
수상실적
- 2022우수논문상, KMEMS 학술대회
- 2020공로상
- 2020Best Paper Award
- 2018우수포스터상
- 2017공로상
Ver. 2025. 5. 17.
연구실 소개
- Neural Interfaces & MicroSystems Lab
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The Neural Interfaces & MicroSystems Laboratory at DGIST is dedicated to creating new technologies that can interface the human body with artificial technical systems (e.g., computers, next-generation robots, prosthetic arms and legs, neural stimulators) as well as meet the needs in clinics and hospitals to diagnose, monitor, rehabilitate and treat neurological diseases and disorders. Our research focuses are the development of 2D and 3D flexible neural interfaces including brain interfaces, peripheral nerve interfaces, retina interfaces; polymer-based microfabrication technologies for soft bio-MEMS (micro-electro-mechanical system); and electrophysiology tools for zebrafish. Current research topics of our laboratory include1) Brain interfaces to study the brain function and toward brain-machine interface (BMI)2) Peripheral nerve interfaces for neurally-controlled robotic arms with sensory feedback3) Retinal implants to restore the vision4) Implantable magnetic stimulation to modulate the brain function5) Stretchable and wearable sensors for bio-signal detection and monitoring6) Polymer-based soft bio-MEMS technologies7) Zebrafish EEG/EMG/ECG and their application for new drug development
Related Keyword
- "Soft-Actuated Cuff Electrodes with Minimal Contact for Bidirectional Peripheral Interfaces", Advanced Materials, v.37, no.5
- "Epidural magnetic stimulation of the motor cortex using an implantable coil", Brain Stimulation, v.17, no.5, pp.1157 - 1166
- "Double-Sided, Thin-Film Microelectrode Array with Hemispheric Electrodes for Subretinal Stimulation", Advanced Materials Technologies, v.9, no.11
- "Electrocorticogram (ECoG): Engineering Approaches and Clinical Challenges for Translational Medicine", Advanced Materials Technologies, v.9, no.12
- "Focal stimulation of retinal ganglion cells using subretinal 3D microelectrodes with peripheral electrodes of opposite current", Biomedical Engineering Letters, v.14, no.2, pp.355 - 365