Finite element framework for fluctuating compressible Navier-Stokes equations that preserves fluctuation-dissipation balance discretely via weak formulation and nodal quadrature, validated in 1D-3D.
Spatio-temporal modelling of phenotypic het- erogeneity in tumour tissues and its impact on radiotherapy treatment
2 Pith papers cite this work. Polarity classification is still indexing.
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A mathematical model shows radiotherapy protocol effectiveness and ranking depend on tumor oxygenation level and spatial geometry through phenotypic adaptation dynamics.
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A Finite Element Method for Fluctuating Navier--Stokes Equations
Finite element framework for fluctuating compressible Navier-Stokes equations that preserves fluctuation-dissipation balance discretely via weak formulation and nodal quadrature, validated in 1D-3D.
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Oxygenation and spatial heterogeneity shape radiotherapy protocol ranking through phenotypic adaptation
A mathematical model shows radiotherapy protocol effectiveness and ranking depend on tumor oxygenation level and spatial geometry through phenotypic adaptation dynamics.