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Fiona R Macfarlane

Showing results (1-10 of 7) with videos related to

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Proceedings. Mathematical, Physical, and Engineering Sciences|June 12, 2020
From a discrete model of chemotaxis with volume-filling to a generalized Patlak-Keller-Segel modelFederica Bubba, Tommaso Lorenzi, Fiona R Macfarlane
Bulletin of Mathematical Biology|November 2, 2022
The Impact of Phenotypic Heterogeneity on Chemotactic Self-OrganisationFiona R Macfarlane, Tommaso Lorenzi, Kevin J Painter
Bulletin of Mathematical Biology|May 19, 2025
Spatial Segregation Across Travelling Fronts in Individual-Based and Continuum Models for the Growth of Heterogeneous Cell PopulationsJosé A Carrillo, Tommaso Lorenzi, Fiona R Macfarlane
Cells|January 2, 2020
Quantitative Predictive Modelling Approaches to Understanding Rheumatoid Arthritis: A Brief ReviewFiona R Macfarlane, Mark A J Chaplain, Raluca Eftimie
Mathematical Biosciences and Engineering : MBE|December 31, 2020
A hybrid discrete-continuum approach to model Turing pattern formationFiona R Macfarlane, Mark A J Chaplain, Tommaso Lorenzi
Bulletin of Mathematical Biology|March 15, 2018
Modelling the Immune Response to Cancer: An Individual-Based Approach Accounting for the Difference in Movement Between Inactive and Activated T CellsFiona R Macfarlane, Tommaso Lorenzi, Mark A J Chaplain
Journal of Mathematical Biology|June 12, 2019
Bridging the gap between individual-based and continuum models of growing cell populationsMark A J Chaplain, Tommaso Lorenzi, Fiona R Macfarlane
Pageof 1

Showing results (1-10 of 7) with videos related to

Sort By:
Pageof 1
Proceedings. Mathematical, Physical, and Engineering Sciences|June 12, 2020
From a discrete model of chemotaxis with volume-filling to a generalized Patlak-Keller-Segel modelFederica Bubba, Tommaso Lorenzi, Fiona R Macfarlane
Bulletin of Mathematical Biology|November 2, 2022
The Impact of Phenotypic Heterogeneity on Chemotactic Self-OrganisationFiona R Macfarlane, Tommaso Lorenzi, Kevin J Painter
Bulletin of Mathematical Biology|May 19, 2025
Spatial Segregation Across Travelling Fronts in Individual-Based and Continuum Models for the Growth of Heterogeneous Cell PopulationsJosé A Carrillo, Tommaso Lorenzi, Fiona R Macfarlane
Cells|January 2, 2020
Quantitative Predictive Modelling Approaches to Understanding Rheumatoid Arthritis: A Brief ReviewFiona R Macfarlane, Mark A J Chaplain, Raluca Eftimie
Mathematical Biosciences and Engineering : MBE|December 31, 2020
A hybrid discrete-continuum approach to model Turing pattern formationFiona R Macfarlane, Mark A J Chaplain, Tommaso Lorenzi
Bulletin of Mathematical Biology|March 15, 2018
Modelling the Immune Response to Cancer: An Individual-Based Approach Accounting for the Difference in Movement Between Inactive and Activated T CellsFiona R Macfarlane, Tommaso Lorenzi, Mark A J Chaplain
Journal of Mathematical Biology|June 12, 2019
Bridging the gap between individual-based and continuum models of growing cell populationsMark A J Chaplain, Tommaso Lorenzi, Fiona R Macfarlane
Pageof 1