Fast Isogeometric Method for Fluid–Structure Interaction Simulation of Heart Valves with GIFT Framework

Advanced Radial Basis Functions Mesh Morphing for High Fidelity Fluid-Structure Interaction with Known Movement of the Walls: Simulation of an Aortic Valve

Jinlan Xu's research works Hangzhou Dianzi University, Hangzhou and other places

Isogeometric finite element data structures based on B??zier extraction of NURBS

Fast Isogeometric Method for Fluid–Structure Interaction Simulation of Heart Valves with GIFT Framework

Fluid–structure interaction simulation of pathological mitral valve dynamics in a coupled mitral valve-left ventricle model - ScienceDirect

Lagrange extraction and projection for NURBS basis functions: A direct link between isogeometric and standard nodal finite element formulations

PDF) Study of cardiovascular function using a coupled left ventricle and systemic circulation model

Fluid-structure interaction simulation of artificial textile reinforced aortic heart valve: Validation with an in-vitro test - ScienceDirect

Advanced Radial Basis Functions Mesh Morphing for High Fidelity Fluid-Structure Interaction with Known Movement of the Walls: Simulation of an Aortic Valve

PDF) Study of cardiovascular function using a coupled left ventricle and systemic circulation model

Fast Isogeometric Method for Fluid–Structure Interaction Simulation of Heart Valves with GIFT Framework

Fluid–Structure Interaction Models of Bioprosthetic Heart Valve Dynamics in an Experimental Pulse Duplicator

PDF) Study of cardiovascular function using a coupled left ventricle and systemic circulation model

Large Eddy Simulation and the variational multiscale method