Welcome to my page!

Yifan Wang

Assistant Professor, Department of Mathematics and Statistics.

Texas Tech University

Computational Hemodynamics

About me

I am an Assistant Professor in the Department of Mathematics and Statistics at Texas Tech University. My research interests are Computational fluid, fluid-structure interaction (FSI) with its applications in biomedical field.

Research Interests

1. Computational fluid dynamics, fluid structure interation
2. Artificial intelligence, machine learning (CNN, RNN, LSTM)
3. Numerical solution of PDE (Galerkin finite element method, Spectral element method, Discontinuous Galerkin method, Smoothed Particle Hydrodynamics)
4. High performance computing

Selected Publications

1. S Čanić, Y Wang, D Paniagua, J Ramirez, L Paniagua, R Quintana, H Jneid, AE Denktas, Computational analysis of different stent geometries and arterial wall response in tortuous coronary artery, abstract at the American heart association scientific session, 2019.
2. S Čanić, M Galić, B Muha, J Tambača, Y Wang, Analysis of a linear 3D fluid–mesh–shell interaction problem, Zeitschrift für angewandte Mathematik und Physik, 2019, 70:44.
3. M Bukac, S Čanić, J Tambaca, Y Wang, Fluid-structure interaction between pulsatile blood flow and a curved stented coronary artery on a beating heart: a four-stent computational study, Computer Methods in Applied Mechanics and Engineering, Vol 350, Pages 679-700, 2019.
4. Y Wang, S Čanić, G Kokot, A Snezhko, IG Aranson, Quantifying hydrodynamic collective states of magnetic colloidal spinners and rollers, Physical Review Fluids, 2019, 4(1): 013701.
5. Y Wang, A Quaini, S Canic, A Higher-Order Discontinuous Galerkin/Arbitrary Lagrangian Eulerian Partitioned Approach to Solving Fluid–Structure Interaction Problems with Incompressible, Viscous Fluids and Elastic Structures, Journal of Scientific Computing, 2018: 1-40.
6. Y Wang, A Quaini, S Canic, M Vukicevic, SH Little, 3D experimental and computational analysis of eccentric mitral regurgitant jets in a mock imaging heart chamber, Cardiovascular engineering and technology, 2017, 8 (4): 419-431.