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Multiphase modelling of vascular tumour growth in two spatial dimensions
M.E. Hubbard, H.M. Byrne
Research output
:
Contribution to journal
›
Article
›
peer-review
49
Scopus citations
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Dive into the research topics of 'Multiphase modelling of vascular tumour growth in two spatial dimensions'. Together they form a unique fingerprint.
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Mathematics
Matrix
100%
Numerical Simulation
100%
Robust Algorithm
100%
Diffusion Equation
100%
Newton Iteration
100%
Reaction-Diffusion System
100%
Balance Equation
100%
Generalized Stokes
100%
Nonlinearities
100%
Spatial Dimension
100%
Source Term
100%
Stokes Equation
100%
Momentum Balance
100%
Healthy Cell
100%
Engineering
Spatial Dimension
100%
Finite Element Method
100%
Mathematical Model
66%
Two Dimensional
33%
Nonlinearity
33%
Computer Simulation
33%
Model Parameter
33%
Source Term
33%
Healthy Cell
33%
Continuum Model
33%
Momentum Balance
33%
Natural Treatment
33%
Stokes Equation
33%
Mass Balance Equation
33%
Phase Model
33%
Stable Element
33%
Principle of Conservation of Mass
33%
Diffusion Equation
33%
Keyphrases
Multiphase Modeling
100%
Generalized Stokes Equations
50%
Tumor Front
50%
Vessel Materials
50%
Upwind Finite Volume Scheme
50%
Necrotic Core
50%
Four-phase Model
50%
Vascularized
50%
Unstructured Triangular Mesh
50%
Full Nonlinearity
50%
Nonlocal Influence
50%
Medicine and Dentistry
Tumor Progression
100%
Neoplasm
100%
Vascular Tissue Neoplasm
100%
Vascular Bundle
50%
Tumor Cell
50%
Vascularity
25%
Material Science
Tumor
100%