Multiscale sequentially-coupled arterial FSI technique

Space-time fluid-structure interaction modeling of patient-specific cerebral aneurysms, SPACE–TIME FLUID–STRUCTURE INTERACTION METHODS, ALE-VMS AND ST-VMS METHODS FOR COMPUTER MODELING OF WIND-TURBINE ROTOR AERODYNAMICS AND FLUID–STRUCTURE INTERACTION, Engineering analysis and design with ALE-VMS and space-time methods, ST and ALE-VMS methods for patient-specific cardiovascular fluid mechanics modeling, Patient-specific computational analysis of the influence of a stent on the unsteady flow in cerebral aneurysms, A hyperelastic extended Kirchhoff-Love shell model with out-of-plane normal stress. I: Out-of-plane deformation, Anatomically realistic lumen motion representation in patient-specific space-time isogeometric flow analysis of coronary arteries with time-dependent medical-image data, Isogeometric hyperelastic shell analysis with out-of-plane deformation mapping, Space-time computations in practical engineering applications: a summary of the 25-year history, Aorta zero-stress state modeling with T-spline discretization, Patient-specific computer modeling of blood flow in cerebral arteries with aneurysm and stent, Space-time computational analysis of bio-inspired flapping-wing aerodynamics of a micro aerial vehicle, Immersed smoothed finite element method for fluid-structure interaction simulation of aortic valves, Space-time techniques for computational aerodynamics modeling of flapping wings of an actual locust, Novel structural modeling and mesh moving techniques for advanced fluid-structure interaction simulation of wind turbines, Numerical-performance studies for the stabilized space-time computation of wind-turbine rotor aerodynamics, Numerical Study for Blood Flows in Thoracic Aorta, A Geometrical-Characteristics Study in Patient-Specific FSI Analysis of Blood Flow in the Thoracic Aorta, Nonlinear fluid-structure interaction problem. II: Space discretization, implementation aspects, nested parallelization and application examples, Nonlinear fluid-structure interaction problem. I: Implicit partitioned algorithm, nonlinear stability proof and validation examples, Fluid-structure interaction simulation of pulsatile ventricular assist devices, Accurate fluid-structure interaction computations using elements without mid-side nodes, Space-time FSI modeling and dynamical analysis of spacecraft parachutes and parachute clusters, Space-time SUPG finite element computation of shallow-water flows with moving shorelines, Stabilized space-time computation of wind-turbine rotor aerodynamics, A parallel sparse algorithm targeting arterial fluid mechanics computations, LLM and X-FEM based interface modeling of fluid-thin structure interactions on a non-interface-fitted mesh, Multiscale space-time fluid-structure interaction techniques, Estimation of element-based zero-stress state for arterial FSI computations, Computation of residence time in the simulation of pulsatile ventricular assist devices, Shape optimization of pulsatile ventricular assist devices using FSI to minimize thrombotic risk, Space-time interface-tracking with topology change (ST-TC), A matrix-form GSM-CFD solver for incompressible fluids and its application to hemodynamics, FSI analysis of the blood flow and geometrical characteristics in the thoracic aorta, Coronary arterial dynamics computation with medical-image-based time-dependent anatomical models and element-based zero-stress state estimates, Multiscale methods for gore curvature calculations from FSI modeling of spacecraft parachutes, Computational methods for parachute fluid-structure interactions, Space-time and ALE-VMS techniques for patient-specific cardiovascular fluid-structure interaction modeling, SPACE–TIME VMS METHODS FOR MODELING OF INCOMPRESSIBLE FLOWS AT HIGH REYNOLDS NUMBERS, A MOVING-MESH GRADIENT SMOOTHING METHOD FOR COMPRESSIBLE CFD PROBLEMS, Medical-image-based aorta modeling with zero-stress-state estimation, Role of 0D peripheral vasculature model in fluid-structure interaction modeling of aneurysms, Computer modeling techniques for flapping-wing aerodynamics of a locust, A heterogeneous multiscale modeling framework for hierarchical systems of partial differential equations, Nested and parallel sparse algorithms for arterial fluid mechanics computations with boundary layer mesh refinement, 3D simulation of wind turbine rotors at full scale. Part I: Geometry modeling and aerodynamics, Fluid-structure interaction modeling and performance analysis of the Orion spacecraft parachutes, Fluid-structure interaction modeling of parachute clusters, Patient-specific arterial fluid-structure interaction modeling of cerebral aneurysms, Influencing factors in image-based fluid-structure interaction computation of cerebral aneurysms, Binary-fluid–solid interaction based on the Navier–Stokes–Korteweg equations, Estimating an equivalent wall-thickness of a cerebral aneurysm through surface parameterization and a non-linear spring system, Heart valve isogeometric sequentially-coupled FSI analysis with the space-time topology change method

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• Automatic mesh update with the solid-extension mesh moving technique
• On the coupling between fluid flow and mesh motion in the modelling of fluid-structure interaction
• Fixed-point fluid-structure interaction solvers with dynamic relaxation
• Isogeometric fluid-structure interaction: Theory, algorithms, and computations
• Fluid-structure interaction modeling of a patient-specific cerebral aneurysm: influence of structural modeling
• An adaptive mesh rezoning scheme for moving boundary flows and fluid--structure interaction
• Fluid--structure interaction analysis of the two-dimensional flag-in-wind problem by an interface-tracking ALE finite element method
• Influence of wall elasticity in patient-specific hemodynamic simulations
• A strong coupling partitioned approach for fluid--structure interaction with free surfaces
• Wall shear stress calculations in space-time finite element computation of arterial fluid-structure interactions
• Solution techniques for the fully discretized equations in computation of fluid-structure interactions with the space-time formulations
• A computational framework for fluid-structure interaction: finite element formulation and applications
• A multiscale/stabilized formulation of the incompressible Navier-Stokes equations for moving boundary flows and fluid-structure interaction
• Fluid-structure interaction modeling of aneurysmal conditions with high and normal blood pressures
• A solution for the incompressibility dilemma in partitioned fluid-structure interaction with pure Dirichlet fluid domains
• Isogeometric fluid-structure interaction analysis with applications to arterial blood flow
• Sequentially-coupled arterial fluid-structure interaction (SCAFSI) technique
• Patient-specific isogeometric fluid-structure interaction analysis of thoracic aortic blood flow due to implantation of the Jarvik 2000 left ventricular assist device
• Fluid-structure interaction modeling of blood flow and cerebral aneurysm: significance of artery and aneurysm shapes
• A new finite element formulation for computational fluid dynamics. V: Circumventing the Babuška-Brezzi condition: A stable Petrov-Galerkin formulation of the Stokes problem accommodating equal-order interpolations
• Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier-Stokes equations
• Incompressible flow computations with stabilized bilinear and linear equal-order-interpolation velocity-pressure elements
• A new strategy for finite element computations involving moving boundaries and interfaces --- The deforming-spatial-domain/space-time procedure. I: The concept and the preliminary numerical tests
• A new strategy for finite element computations involving moving boundaries and interfaces --- The deforming-spatial-domain/space-time procedure. II: Computation of free-surface flows, two-liquid flows, and flows with drifting cylinders
• A parallel 3D computational method for fluid-structure interactions in parachute systems
• Parachute fluid-structure interactions: 3-D computation
• Advanced mesh generation and update methods for 3D flow simulations
• Massively parallel finite element computation of incompressible flows involving fluid-body interactions
• Mesh update strategies in parallel finite element computations of flow problems with moving boundaries and interfaces
• Massively parallel finite element simulation of compressible and incompressible flows
• Computer modeling of cardiovascular fluid-structure interactions with the deforming-spatial-domain/stabilized space-time formulation
• Space-time finite element techniques for computation of fluid-structure interactions
• Space-time finite element computation of arterial fluid-structure interactions with patient-specific data
• Mesh Moving Techniques for Fluid-Structure Interactions With Large Displacements
• Modeling of Fluid-Structure Interactions with the Space-Time Techniques
• Extending the Range and Applicability of the Loose Coupling Approach for FSI Simulations
• Algorithmic Treatment of Shells and Free Form-Membranes in FSI
• Arterial fluid mechanics modeling with the stabilized space–time fluid–structure interaction technique
• GMRES: A Generalized Minimal Residual Algorithm for Solving Nonsymmetric Linear Systems
• Stabilized Finite Element Formulations for Incompressible Flow Computations
• Computation of moving boundaries and interfaces and stabilization parameters
• An interface Newton–Krylov solver for fluid–structure interaction
• Parallel finite element simulation of 3D incompressible flows: Fluid‐structure interactions
• Modelling of fluid–structure interactions with the space–time finite elements: Solution techniques
• Modelling of fluid–structure interactions with the space–time finite elements: Arterial fluid mechanics
• Numerical investigation of the effect of hypertensive blood pressure on cerebral aneurysm—Dependence of the effect on the aneurysm shape
• Influence of wall thickness on fluid–structure interaction computations of cerebral aneurysms
• On the Nonnormality of Subiteration for a Fluid-Structure-Interaction Problem
• Reduced symmetric models for modal analysis of internal structural-acoustic and hydroelastic-sloshing systems
• Finite element methods for flow problems with moving boundaries and interfaces
• Fluid-structure interactions of a parachute crossing the fair wake of an aircraft