关注
Baris Cansiz
Baris Cansiz
Dr.-Ing.
在 tu-dresden.de 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
An orthotropic viscoelastic material model for passive myocardium: theory and algorithmic treatment
FBC Cansız, H Dal, M Kaliske
Computer methods in biomechanics and biomedical engineering 18 (11), 1160-1172, 2015
522015
Computational cardiology: a modified Hill model to describe the electro-visco-elasticity of the myocardium
B Cansız, H Dal, M Kaliske
Computer Methods in Applied Mechanics and Engineering 315, 434-466, 2017
332017
A three‐scale compressible micro‐sphere model for hyperelastic materials
H Dal, B Cansız, C Miehe
International Journal for Numerical Methods in Engineering, 2018
192018
Towards predictive computer simulations in cardiology: Finite element analysis of personalized heart models
B Cansız, K Sveric, K Ibrahim, RH Strasser, A Linke, M Kaliske
Journal of Applied Mathematics and Mechanics, 2018
162018
Computational cardiology: the bidomain based modified Hill model incorporating viscous effects for cardiac defibrillation
B Cansız, H Dal, M Kaliske
Computational Mechanics, 2017
142017
A numerical study on the effects of spatial and temporal discretization in cardiac electrophysiology
LA Woodworth, B Cansız, M Kaliske
International journal for numerical methods in biomedical engineering 37 (5 …, 2021
132021
Fully coupled cardiac electromechanics with orthotropic viscoelastic effects
B Cansız, H Dal, M Kaliske
Procedia IUTAM 12, 124-133, 2015
102015
Balancing conduction velocity error in cardiac electrophysiology using a modified quadrature approach
LA Woodworth, B Cansız, M Kaliske
International journal for numerical methods in biomedical engineering 38 (5 …, 2022
92022
Computational modelling of mechano-electric feedback and its arrhythmogenic effects in human ventricular models
Y Lee, B Cansız, M Kaliske
Computer Methods in Biomechanics and Biomedical Engineering 25 (15), 1767-1783, 2022
72022
A simple phenomenological approach for myocardial contraction: formulation, parameter sensitivity study and applications in organ level simulations
B Cansız, LA Woodworth, M Kaliske
Mechanics of Soft Materials 3 (1), 2, 2021
62021
A Multiscale continuum damage model for cavity growth in rubberlike materials
H Dal, B Cansiz, C Miehe
Constitutive Models for Rubber VIII 10, 183, 2013
42013
A comparative study of fully implicit staggered and monolithic solution methods. Part I: Coupled bidomain equations of cardiac electrophysiology
B Cansız, M Kaliske
Journal of Computational and Applied Mathematics 407, 114021, 2022
32022
A multiphysical computational model of myocardial growth adopted to human pathological ventricular remodelling
Y Lee, B Cansız, M Kaliske
Computational Mechanics 72 (6), 1215-1237, 2023
12023
Assessment of LV structural remodelling by the application of the finite element method to 3D echocardiography data
Y Lee, B Cansız, K Sveric, A Linke, M Kaliske
Computer Methods in Biomechanics and Biomedical Engineering: Imaging …, 2024
2024
A comparative study of fully implicit staggered and monolithic solution methods. Part II: Coupled excitation–contraction equations of cardiac electromechanics
B Cansız, M Kaliske
Journal of Computational and Applied Mathematics 442, 115704, 2024
2024
A new approach for analysing motion and deformation of left ventricle: Post‐processing 3D echocardiography data with finite element method
B Cansız, K Sveric, A Linke, M Kaliske
PAMM 23 (4), e202300297, 2023
2023
Fast and reliable reduced‐order models for cardiac electrophysiology
S Chellappa, B Cansız, L Feng, P Benner, M Kaliske
GAMM‐Mitteilungen 46 (3-4), e202370014, 2023
2023
Accuracy of Devereux and Teichholz formulas for left ventricular mass calculation in different geometric patterns: comparison with cardiac magnetic resonance imaging
KM Sveric, B Cansız, A Winkler, S Ulbrich, G Ende, F Heidrich, M Kaliske, ...
Scientific Reports 13 (1), 14089, 2023
2023
Author Correction: Accuracy of Devereux and Teichholz formulas for left ventricular mass calculation in different geometric patterns: comparison with cardiac magnetic resonance …
KM Sveric, B Cansız, A Winkler, S Ulbrich, G Ende, F Heidrich, M Kaliske, ...
Scientific Reports 13, 2023
2023
Computational Modelling of Cardiac Electromechanics Towards Predictive Patient Specific Simulations
B Cansiz
Institute for Structural Analysis, TU Dresden, 2019
2019
系统目前无法执行此操作,请稍后再试。
文章 1–20