People
Name Research
Prof Makoto Yamamoto
(1990〜)
Computer simulation of icing phenomenon in jet engine
Numerical prediction of sand erosion phenomenon in jet engines
Computer simulation on growth, rupture, and treatment of cerebral aneurysms
Research associate Koji Fukudome
(2018.4〜)
Direct numerical simulation /Turbulent transition/ Turbulent structure
Ph.D. Soichiro Fujimura Study on the development of a cerebrovascular treatment assist system using artificial intelligence and numerical analysis technology
(at The Jikei University)
D3 Yuya Uchiyama Numerical study on rupture of cerebral aneurysm
(at The Jikei University)
M2 Mio Inagawa Numerical simulation of ice crystal icing
Ryu Inamuki Numerical simulation of flow around a wing using Gurney flap
Yutatsu Koide Numerical simulation of oscillatory flow in bleed channel
Yuka Kono Numerical simulation of icing phenomena under rain ice condition by prticle method
Koichiro Hirose Development of an ice particle decay model using the MPS method
Yuma Mizuochi Development of ice trajectory tracking model in jet engine
Ryuya Murata Analysis of deposition phenomena by particle method
Yuma Yamanaka Study on the effect of vascular shape change on rupture factors before and after rupture of cerebral aneurysm
M1 Hayato Uchikawa Investigation on curative effect of stent placement
Youri Kai Numerical study about deposition phenomena by UPACS
Tomoki Kasai Numerical study about prediction of blood circulation by 4D-DSA
Yushin Ko Numerical study about icing phenomena by UPACS
Shota Sunami Development of rupture prediction model for unruptured cerebral aneurysms using CFD analysis and machine learning
Masahiro Nagao
Kazuya Yuzawa Prediction of therapeutic effect after flow diverter stent implantation using clinical information and CFD-based statistical analysis
Yuukin Rai
B4 Yuma Ikeda Numerical simulation of erosion phenomena in HTP-LPT 1.5-stage and LTP multi-stage
Syuma Kato Development of variable resolution particle method code
Masataka Kaneshi Numerical simulation of SLD icing by particle method
Miki Sato Research on flow in nasal cavity
Flow study on heart shunt surgery
Wakana Tatsuta
Tatsuya Baba
Kazunori Masuda Identification of hemodynamic factors related to thinning of cerebral aneurysm wall using CFD analysis
Hibiki Hoshi
Research Collaborators
Name Affiliation
Masaya Suzuki Japan Aerospace Exploration Agency(JAXA)
 Aeronautical Technology Directorate
Hiroyuki Takao The Jikei University Department of Innovation for Medical Information Technology
Naoya Fukushima Tokai University Faculty of Engineering Department of Prime Mover Engineering
Kozo Fujii Tokyo University of Science Faculty of Engineering Department of Computer and Information Technology
Hiroya Mamori
The University of Electro-Communications Graduate School of Information Science and Technology Department of Intelligent Mechanical Engineering