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József Z Farkas

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

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Infectious Disease Reports|November 29, 2021
Assessing the Impact of (Self)-Quarantine through a Basic Model of Infectious Disease DynamicsJózsef Z Farkas, Roxane Chatzopoulos
Bulletin of Mathematical Biology|March 17, 2010
Structured and unstructured continuous models for Wolbachia infectionsJózsef Z Farkas, Peter Hinow
Mathematical Biosciences and Engineering : MBE|June 3, 2011
Physiologically structured populations with diffusion and dynamic boundary conditionsJózsef Z Farkas, Peter Hinow
Journal of Biological Dynamics|August 10, 2012
The 8th AIMS Conference on Dynamical Systems, Differential Equations and ApplicationsJózsef Z Farkas, Peter Hinow
Mathematical Biosciences|July 4, 2012
Pathogen evolution in switching environments: a hybrid dynamical system approachJózsef Z Farkas, Peter Hinow, Jan Engelstädter
Journal of Mathematical Biology|April 12, 2019
Modelling evolution of virulence in populations with a distributed parasite loadSimran K Sandhu, Andrew Yu Morozov, József Z Farkas
Mathematical Biosciences and Engineering : MBE|November 1, 2018
A dynamic model of CT scans for quantifying doubling time of ground glass opacities using histogram analysisJózsef Z Farkas, Gary T Smith, Glenn F Webb
Journal of Mathematical Biology|April 19, 2024
On hierarchical competition through reduction of individual growthCarles Barril, Àngel Calsina, Odo Diekmann, et al.
Journal of Biological Dynamics|June 4, 2014
Finite difference approximations for a size-structured population model with distributed states in the recruitmentAzmy S Ackleh, József Z Farkas, Xinyu Li, et al.
Journal of Mathematical Biology|January 19, 2017
Modelling Wolbachia infection in a sex-structured mosquito population carrying West Nile virusJózsef Z Farkas, Stephen A Gourley, Rongsong Liu, et al.
Pageof 1

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

Sort By:
Pageof 1
Infectious Disease Reports|November 29, 2021
Assessing the Impact of (Self)-Quarantine through a Basic Model of Infectious Disease DynamicsJózsef Z Farkas, Roxane Chatzopoulos
Bulletin of Mathematical Biology|March 17, 2010
Structured and unstructured continuous models for Wolbachia infectionsJózsef Z Farkas, Peter Hinow
Mathematical Biosciences and Engineering : MBE|June 3, 2011
Physiologically structured populations with diffusion and dynamic boundary conditionsJózsef Z Farkas, Peter Hinow
Journal of Biological Dynamics|August 10, 2012
The 8th AIMS Conference on Dynamical Systems, Differential Equations and ApplicationsJózsef Z Farkas, Peter Hinow
Mathematical Biosciences|July 4, 2012
Pathogen evolution in switching environments: a hybrid dynamical system approachJózsef Z Farkas, Peter Hinow, Jan Engelstädter
Journal of Mathematical Biology|April 12, 2019
Modelling evolution of virulence in populations with a distributed parasite loadSimran K Sandhu, Andrew Yu Morozov, József Z Farkas
Mathematical Biosciences and Engineering : MBE|November 1, 2018
A dynamic model of CT scans for quantifying doubling time of ground glass opacities using histogram analysisJózsef Z Farkas, Gary T Smith, Glenn F Webb
Journal of Mathematical Biology|April 19, 2024
On hierarchical competition through reduction of individual growthCarles Barril, Àngel Calsina, Odo Diekmann, et al.
Journal of Biological Dynamics|June 4, 2014
Finite difference approximations for a size-structured population model with distributed states in the recruitmentAzmy S Ackleh, József Z Farkas, Xinyu Li, et al.
Journal of Mathematical Biology|January 19, 2017
Modelling Wolbachia infection in a sex-structured mosquito population carrying West Nile virusJózsef Z Farkas, Stephen A Gourley, Rongsong Liu, et al.
Pageof 1