Mathematical Modeling of Inflammatory Processes
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Publication:5208485
DOI10.1007/978-3-030-23433-1_17zbMath1430.92025OpenAlexW2978264018MaRDI QIDQ5208485
Publication date: 16 January 2020
Published in: Trends in Biomathematics: Mathematical Modeling for Health, Harvesting, and Population Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/978-3-030-23433-1_17
Physiological flow (92C35) Mathematical modeling or simulation for problems pertaining to biology (92-10) Pathology, pathophysiology (92C32)
Uses Software
Cites Work
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- Numerical simulations of a 3D fluid-structure interaction model for blood flow in an atherosclerotic artery
- Absorbing boundary conditions for a 3D non-Newtonian fluid-structure interaction model for blood flow in arteries
- A 3D non-Newtonian fluid-structure interaction model for blood flow in arteries
- A three-dimensional computational method for blood flow in the heart. I: Immersed elastic fibers in a viscous incompressible fluid
- Lagrangian-Eulerian finite element formulation for incompressible viscous flows
- Numerical analysis of blood flow in the heart
- A new generalized Oldroyd-B model for blood flow in complex geometries
- An arbitrary Lagrangian-Eulerian finite element method for transient dynamic fluid-structure interactions
- A fictitious domain method for Dirichlet problem and applications
- A fictitious domain method for external incompressible viscous flow modeled by Navier-Stokes equations
- A level set formulation of Eulerian interface capturing methods for incompressible fluid flows
- Sensitivity of hemodynamics in a patient specific cerebral aneurysm to vascular geometry and blood rheology
- Flapping and contact FSI computations with the fluid-solid interface-tracking/interface-capturing technique and mesh adaptivity
- Generalized Navier–Stokes equations with non-standard conditions for blood flow in atherosclerotic artery
- Numerical Methods for Two-phase Incompressible Flows
- On the stability of the coupling of 3D and 1D fluid-structure interaction models for blood flow simulations
- Mathematical study of a single leukocyte in microchannel flow
- A 2D Mathematical Model of Blood Flow and its Interactions in an Atherosclerotic Artery
- Eulerian Techniques for Fluid-Structure Interactions: Part I – Modeling and Simulation
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