New boundary conditions for one-dimensional network models of hemodynamics
From MaRDI portal
Publication:2066343
DOI10.1134/S0965542521120125zbMath1496.76170OpenAlexW4205207672MaRDI QIDQ2066343
Publication date: 14 January 2022
Published in: Computational Mathematics and Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1134/s0965542521120125
asymptotic solutionaveragingnonreflecting boundary conditionsolution continuityvessel junction boundary condition
Asymptotic methods, singular perturbations applied to problems in fluid mechanics (76M45) Physiological flows (76Z05) Physiological flow (92C35)
Related Items (1)
Cites Work
- Unnamed Item
- Unnamed Item
- Analysing the pattern of pulse waves in arterial networks: a time-domain study
- Mathematical modeling of quasi-one-dimensional hemodynamics
- On the elasticity of blood vessels in one-dimensional problems of hemodynamics
- Cardiovascular mathematics. Modeling and simulation of the circulatory system
- One-dimensional modelling of a vascular network in space-time variables
- Computational vascular fluid dynamics: problems, models and methods
- Conservative schemes of matter transport in a system of vessels closed by the heart
- Quasi-one-dimensional flow of a fluid with anisotropic viscosity in a pulsating vessel
- A Newton-Raphson pseudo-solid domain mapping technique for free and moving boundary problems: A finite element implementation
- Spatially averaged haemodynamic models for different parts of cardiovascular system
- Lumped parameter heart model with valve dynamics
- A finite element method for the Navier-Stokes equations in moving domain with application to hemodynamics of the left ventricle
- Mathematical analysis of the quasilinear effects in a hyperbolic model blood flow through compliant axi-symmetric vessels
- Erratum to the paper “Methods of Blood Flow Modelling”
- Analysis of lumped parameter models for blood flow simulations and their relation with 1D models
- Pulse Wave Propagation in the Arterial Tree
- A new constitutive framework for arterial wall mechanics and a comparative study of material models
- Fluid flow in collapsible elastic tubes: a three-dimensional numerical model
This page was built for publication: New boundary conditions for one-dimensional network models of hemodynamics
