Pages that link to "Item:Q2384262"

The following pages link to Outflow boundary conditions for three-dimensional finite element modeling of blood flow and pressure in arteries (Q2384262):

Displaying 50 items.

• A parallel monolithic approach for fluid-structure interaction in a cerebral aneurysm (Q1648348) (← links)
• Impact of uncertainties in outflow boundary conditions on the predictions of hemodynamic simulations of ascending thoracic aortic aneurysms (Q1649679) (← links)
• Energy-based operator splitting approach for the time discretization of coupled systems of partial and ordinary differential equations for fluid flows: the Stokes case (Q1656741) (← links)
• Modified Navier-Stokes equations for the outflow boundary conditions in hemodynamics (Q1671617) (← links)
• Analysis of a stabilized finite element method for Stokes equations of velocity boundary condition and of pressure boundary condition (Q1747315) (← links)
• An immersogeometric variational framework for fluid-structure interaction: application to bioprosthetic heart valves (Q1798019) (← links)
• Dtn-based mixed-dimensional coupling using a boundary stress recovery technique (Q1800192) (← links)
• Prescription of general defective boundary conditions in fluid-dynamics (Q1932783) (← links)
• Weakly imposed boundary conditions for shear-rate dependent non-Newtonian fluids: application to cardiovascular flows (Q1984144) (← links)
• A unified continuum and variational multiscale formulation for fluids, solids, and fluid-structure interaction (Q1985596) (← links)
• Propagating uncertainties in large-scale hemodynamics models via network uncertainty quantification and reduced-order modeling (Q1989088) (← links)
• Simulating the spread of COVID-19 \textit{via} a spatially-resolved susceptible-exposed-infected-recovered-deceased (SEIRD) model with heterogeneous diffusion (Q2006320) (← links)
• New boundary conditions for one-dimensional network models of hemodynamics (Q2066343) (← links)
• A parallel domain decomposition method for large eddy simulation of blood flow in human artery with resistive boundary condition (Q2072324) (← links)
• A highly parallel fully implicit domain decomposition method for the simulation of the hemodynamics of a patient-specific artery at the full-body scale (Q2099763) (← links)
• Elastodynamic 2D-1D coupling using the DtN method (Q2134495) (← links)
• A reduced unified continuum formulation for vascular fluid-structure interaction (Q2136709) (← links)
• Perivascular pumping in the mouse brain: improved boundary conditions reconcile theory, simulation, and experiment (Q2137455) (← links)
• Mixed-dimensional coupling for time-dependent wave problems using the Nitsche method (Q2174136) (← links)
• Physics driven real-time blood flow simulations (Q2180484) (← links)
• Multilevel and multifidelity uncertainty quantification for cardiovascular hemodynamics (Q2184337) (← links)
• Nonreflecting boundary conditions for a CSF model of fourth ventricle: spinal SAS dynamics (Q2189978) (← links)
• A concurrent implementation of the surrogate management framework with application to cardiovascular shape optimization (Q2218904) (← links)
• A nonlinear elimination preconditioned inexact Newton method for blood flow problems in human artery with stenosis (Q2222628) (← links)
• Backflow stabilization by deconvolution-based large eddy simulation modeling (Q2223007) (← links)
• Immersogeometric cardiovascular fluid-structure interaction analysis with divergence-conforming B-splines (Q2310373) (← links)
• Domain decomposition based parallel computing for multi-scale coronary blood flow simulations (Q2331858) (← links)
• Outflow boundary conditions for one-dimensional finite element modeling of blood flow and pressure waves in arteries (Q2387691) (← links)
• Geometric multiscale modeling of the cardiovascular system, between theory and practice (Q2417571) (← links)
• Noninvasive assessment of carotid artery stenoses by the principle of multiscale modelling of non-Newtonian blood flow in patient-specific models (Q2422948) (← links)
• A new preconditioning technique for implicitly coupled multidomain simulations with applications to hemodynamics (Q2441164) (← links)
• A finite element solver and energy stable coupling for 3D and 1D fluid models (Q2449920) (← links)
• Numerical simulation of blood flow in the thoracic aorta using a centerline-fitted finite difference approach (Q2452284) (← links)
• Scalable parallel methods for monolithic coupling in fluid-structure interaction with application to blood flow modeling (Q2655659) (← links)
• Analysis of a coupled fluid-structure model with applications to hemodynamics (Q2798653) (← links)
• Algorithms for the partitioned solution of weakly coupled fluid models for cardiovascular flows (Q2893191) (← links)
• A novel formulation for Neumann inflow boundary conditions in biomechanics (Q2903262) (← links)
• Energy Inequalities and Outflow Boundary Conditions for the Navier–Stokes Equations (Q2962466) (← links)
• Time-Dependent Outflow Boundary Conditions for Blood Flow in the Arterial System (Q2962471) (← links)
• Computational Study of Aortic Hemodynamics: From Simplified to Patient-Specific Geometries (Q2962476) (← links)
• Comparison of high-order absorbing boundary conditions and perfectly matched layers in the frequency domain (Q3060256) (← links)
• Efficient implementation of the proper outlet flow conditions in blood flow simulations through asymmetric arterial bifurcations (Q3087033) (← links)
• Simulation of blood flow in deformable vessels using subject-specific geometry and spatially varying wall properties (Q3089029) (← links)
• ST and ALE-VMS methods for patient-specific cardiovascular fluid mechanics modeling (Q3191256) (← links)
• An operator splitting approach for the interaction between a fluid and a multilayered poroelastic structure (Q3448349) (← links)
• On the stability of the coupling of 3D and 1D fluid-structure interaction models for blood flow simulations (Q3507182) (← links)
• Blood flow dynamics and fluid-structure interaction in patient-specific bifurcating cerebral aneurysms (Q3536244) (← links)
• Numerical simulation of blood flows through a porous interface (Q3536746) (← links)
• Coupling haemodynamics with vascular wall mechanics and mechanobiology to understand intracranial aneurysms (Q3551751) (← links)
• Comparison between computational fluid dynamics, fluid–structure interaction and computational structural dynamics predictions of flow-induced wall mechanics in an anatomically realistic cerebral aneurysm model (Q3551760) (← links)