- keiya@simula.no
Publications
2024
Journal Articles
K. Yamamoto, D. A. Bruneau, J. S. Dokken, D. A. Steinmam and K. Valen-Sendstad
Impact of Wall Property and Flow Rate Assumptions on Simulations of Flow-Induced Vibration of Intracranial Aneurysms
TBA
Talks, contributed
K. Yamamoto, D. A. Bruneau, D. A. Steinmam and K. Valen-Sendstad
Sensitivity Analysis Of Wall Vibrations Induced By Turbulent-Like Flow In Intracranial Aneurysms
Arlington, VA, United States
2023
Book Chapters
K. Ngo, N. T. Herrera, M. Folkmanaite, K. Yamamoto and M. Maleckar
In silico Investigation of Sex-Specific Osteoarthritis in Human Articular Chondrocytes
Computational Physiology: Simula Summer School 2022− Student Reports
K. Ngo, N. T. Herrera, M. Folkmanaite, K. Yamamoto and M. Maleckar
In silico Investigation of Sex-Specific Osteoarthritis in Human Articular Chondrocytes
Computational Physiology: Simula Summer School 2022 - Student Reports
Talks, contributed
K. Yamamoto, D. Bruneau, D. Steinman and K. Valen-Sendstad
The effects of cerebrospinal fluid and hyperelastic model on aneurysm wall vibration using high-fidelity fluid-structure interaction simulations
Summer Biomechanics, Bioengineering, and Biotransport Conference
2022
Book Chapters
K. Yamamoto, S. Fischer-Holzhausen, M. P. Fjeldstad and M. Maleckar
Ordinary Differential Equation-based Modeling of Cells in Human Cartilage
Computational Physiology: Simula Summer School 2021− Student Reports
K. Yamamoto, S. Fischer-Holzhausen, M. P. Fjelstad and M. Maleckar
Ordinary Differential Equation-based Modeling of Cells in Human Cartilage
Computational Physiology - Simula Summer School 2021 - Student Reports
Posters
K. Yamamoto and K. Valen-Sendstad
Turbulent-like flow as a cause of cerebral aneurysm initiation: Can flow instability promote pathophysiological wall remodeling?
Talks, keynote
K. Yamamoto and K. Valen-Sendstad
SimCardioTest Open Source Software – Demo on OASIS: Computational fluid dynamics solver & SOFA: Simulation Open Framework Architecture
VPH2022, Porto, Portugal
Talks, contributed
K. Yamamoto and K. Valen-Sendstad
Under-resolved DNS of turbulent flow in straight and helically coiled pipes
FEniCS 2022, San Diego, USA
Master's thesis
K. Yamamoto
Numerical Investigation of Turbulent Flow in Helically Coiled Pipes
The University of Oslo
2021
Journal Articles
S. Fischer-Holzhausen, K. Yamamoto, M. P. Fjelstad and M. Maleckar
Probing the putative role of KATP channels and biological variability in a mathematical model of chondrocyte electrophysiology
Bioelectricity