Faulty List At SAIHST, we have faculties from various backgrounds such as ; basic science, clinical medicine, pharmacology, engineering, business etc. SAIHST is always open for future competent faculties to lead biomedical science.

Taekyung Kim / Ph.D.

Name : Taekyung Kim  Ph.D. Department : Medical Device Research Center, SMC Title : Campus : Samsung Medical Center campus Office : 4th floor, Proton Therapy Center, Samsung Medical Center E-mail : t0.kim@samsung.com Homepage : Lab. title : Medical Device Research Center Related Department : Department of Medical Device Management and Research Print

■ Careers 2004 – 2009 B.S. Electronic, Electrical and Computer Engineering, Hanyang University 2009 – 2011 M.S. Biomedical Engineering, Hanyang University 2011 – 2016 Ph.D. Biomedical Engineering, Hanyang University 2016 – 2017 Postdoctoral researcher, Biomedical Engineering Research Center, Hanyang University 2017 – 2018 Principal Research Engineer, Advanced Research Team, Hyundai Mobis, Korea 2018 – Present Principal Research Engineer, Smart Healthcare Device Research Center, Samsung Medical Center, Korea 2018 – Present Research Professor, Department of Medical Device Management and Research, Samsung Advanced Institute for Health Science and Technology, Sungkyunkwan University ■ Research Interests This study focuses on the developing techniques and devices which can help or replace the drug treatment methods by modulating the electrical or chemical property through external stimuli. The research includes understanding mechanism of diseases from the point of view of neural circuits, to develop diagnostic tools and treatment methods for diseases. ■ Keywords  Neuromodulation, Implantable Devices, Functional Brain Mapping, Biosignal Processing ■ Selected Publications  1. Neural correlates of spatial and non-spatial attention determined using intracranial electoencephalographic signals in human. Human Brain Mapping 2016 Apr. 37:3041-3054 2. Asymmetric behaviours of brain oscillations in the human hippocampus during spatial navigation tasks. Neuroreport 2016 Feb. 27:192-196 3. Role of low- and high-frequency oscillations in the human hippocampus for encoding environmental novelty during a spatial navigation task. Hippocampus 2014 Jun 24:1341-1352 4. SYSTEM AND METHOD FOR PREDICTING INTENTION OF USER USING BRAIN WAVE. 2017 Apr. (10-1724939) 5. Adaptive Deep Brain Stimulation System Actively Controlling The Stimulation Pattern for Deep Brain Stimulation. 2015 Dec. (10-1583044)