2018.02 right버튼left버튼


2018.02.01 ~ 3





Jin-Gyun Kim Assistant professor
  • Dgree
  • KAIST, Ph.D
  • Major
  • Dynamics, vibration, applied mathematics
  • Interest
  • Computational dynamics, vibration, reduced-order modeling, multiphysics, and uncertainty quantification
  • Tel
  • +82 31 201 3692
  • Email
  • jingyun.kim@khu.ac.kr
Korea Advanced Institute of Science and Technology, PH.D. School of Mechanical, Aerospace and Systems Engineering, Division of Ocean Systems Engineering Korea University, M.S. Department of Civil and Environmental Engineering Korea University, B.S. Department of Civil and Environmental Engineering
[Experiences] 2018/03 - present Kyung Hee University, Department of Mechanical Engineering, Assistant professor 2014/06 – 2018/02 Korea Institute of Machinery and Materials, The Mechanical Systems Safety Research Division, Senior researcher 01/2017 – 07/2017 Delft University of Technology (EU Partner: Prof. Angelo Simone, TU Delft), Delft, Netherlands, Visiting researcher [Organizing Conferences & Symposiums] 1. Organizer of the mini-symposium “Advances in model reduction method”, 2015 World Congress on Advances in Structural Engineering and Mechanics (ASEM2015), 2015. 2. Co-organizer of a mini-symposium “Recent advances of model reduction techniques in structural dynamics”, COMPDYN2017, Greece, 2017.
1. Member, Korean Society of Noise and Vibration Engineering (KSNVE), 2014-. 2. Member, Computational Structural Engineering Institute of Korea (COSEIK), 2011-. 3. Member, Korean Society of Mechanical Engineers (KSME), 2015-. 4. Member, The American Institute of Aeronautics and Astronautics (AIAA), 2016- 5. Member, The American Society of Mechanical Engineers (ASME), 2016-.
[Numerical methods and modeling techniques for engineering dynamics] : Linear and nonlinear reduced-order modeling, component mode synthesis, dynamic substructuring, flexible multibody dynamics, finite element model updating, system identification, uncertainty quantification, Mechanical components assembly [Multi-physics based integrated modeling relevant to engineering dynamics] :Fluid-structure interaction, integrated dynamic system modeling, virtual sensing, thermo-mechanical vibration, elastohydrodynamics lubrication [Engineering applications] :Self-deployable structures, gear dynamics, drivetrain, satellite FE analysis