A numerical method based on the moving mesh for the solving of a mathematical model of the avascular tumor growth
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Publication:5025449
DOI10.22034/cmde.2020.31455.1472zbMath1499.92017OpenAlexW3013981678MaRDI QIDQ5025449
No author found.
Publication date: 2 February 2022
Full work available at URL: https://cmde.tabrizu.ac.ir/article_10353_c30e275526321601a1a6fc5896291675.pdf
Mesh generation, refinement, and adaptive methods for the numerical solution of initial value and initial-boundary value problems involving PDEs (65M50) Pathology, pathophysiology (92C32)
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Cites Work
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- A history of the study of solid tumour growth: the contribution of mathematical modelling
- A moving mesh approach for modelling avascular tumour growth
- An adaptive multigrid algorithm for simulating solid tumor growth using mixture models
- Moving mesh methods for solving parabolic partial differential equations
- Adaptive moving mesh methods
- Mathematical model and its fast numerical method for the tumor growth
- Diffusion regulated growth characteristics of a spherical prevascular carcinoma
- The migration of cells in multicell tumor spheroids
- Mathematical model of prevascular growth of a spherical carcinoma
- A numerical algorithm for avascular tumor growth model
- A simplified mathematical model of tumor growth
- Effects of non-uniform inhibitor production on the growth of cancer cell cultures
- Nonlinear diffusion of a growth inhibitory factor in multicell spheroids
- A new mathematical model for avascular tumour growth
- A moving mesh study for diffusion induced effects in avascular tumour growth
- Moving mesh strategies of adaptive methods for solving nonlinear partial differential equations
- Three-dimensional multispecies nonlinear tumor growth. I: Model and numerical method
- Growth of necrotic tumors in the presence and absence of inhibitors
- The role of cell-cell interactions in a two-phase model for avascular tumour growth
- An adaptive moving mesh method with static rezoning for partial differential equations
- Adaptive grid modelling for cancer cells in the early stage of invasion
- Evolutionary dynamics of invasion and escape
- Nonlinear simulations of solid tumor growth using a mixture model: invasion and branching
- On the concentration profile of a growth inhibitory factor in multicell spheroids
- Modelling the cell cycle and cell movement in multicellular tumour spheroids
- Mathematical Models of Avascular Tumor Growth
- Moving Mesh Partial Differential Equations (MMPDES) Based on the Equidistribution Principle
- Analysis of Moving Mesh Partial Differential Equations with Spatial Smoothing
- Wavefront propagation in a competition equation with a new motility term modelling contact inhibition between cell populations
- Graphs with Monochromatic Complete Subgraphs in Every Edge Coloring
- Models for the Growth of a Solid Tumor by Diffusion
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