- Stanford University 공학박사
- 유체역학, 심혈관생체역학, 수치해석
- 심혈관 질환, 다상유동, 난류, 전산 디자인
Ph.D., Mechanical Engineering, Stanford University M.S., Mechanical Engineering, Stanford University B.S., Department of Mechanical & Aerospace Engineering, Seoul National University
Assistant Professor, Department of Mechanical Engineering, Kyung Hee University, 2022/3 – Present Sr. Research Scientist, Palo Alto Research Center, 2021-2022 Engineering Research Associate, Stanford University, 2019-2021 Postdoctoral Scholar, Pediatric Cardiology, Stanford University, 2017-2019
J. Seo, A. B. Ramachandra, J. Boyd, A. Marsden, A. Kahn, “Computational evaluation of surgical revascularization techniques in coronary artery bypass graft surgery,” SEMINARS IN THORACIC AND CARDIOVASCULAR SURGERY, 2021 J. Seo, D. Schiavazzi, A. Kahn, A. Marsden, “The effects of clinically-derived parametric data uncertainty in patient-specific coronary simulations with deformable walls,” INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN BIOMEDICAL ENGINEERING, 2020, Vol. 36 (8) J. Seo, D. Schiavazzi, A. Marsden, “Performance of preconditioned iterative linear solvers for cardiovascular simulations in rigid and deformable vessels,” COMPUTATIONAL MECHANICS, 2019, Vol. 64, 717-739. J. Seo, R. Garcia-Mayoral, A. Mani, “Turbulent flows over superhydrophobic surfaces: flow-induced capillary waves, and robustness of air-water interfaces,” JOURNAL OF FLUID MECHANICS, 2018, Vol. 835, pp. 45-84. J. Seo and A. Mani, “On the scaling of the slip velocity in turbulent flows over superhydrophobic surfaces,” PHYSICS OF FLUIDS, 2016, Vol. 28, 025110. J. Seo, R. Garcia-Mayoral, A. Mani, “Pressure fluctuations and interfacial robustness in turbulent flows over superhydrophobic surfaces,” JOURNAL OF FLUID MECHANICS, 2015, Vol. 783, pp. 448-473.
Member, American Physical Society, Division of Fluid Dynamics, 2012-Present. Director of Research, Stanford Center at Incheon Global Campus, 2021. Director, Stanford Center for Innovation and Design Research, 2019-2021.
Fluid Mechanics, Turbulence, Numerical Methods, Cardiovascular Biomechanics, Uncertainty Quantification, Multiphase Flows, Computational Fluid Dynamics, Virtual Surgery, Computational Design, Fluid-Structure Interaction, Reduced Order Modeling.