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Journal of Mathematical Biology
|
July 29, 2003
Competitive exclusion and coexistence for pathogens in an epidemic model with variable population size
Azmy S Ackleh, Linda J S Allen
Mathematical Biosciences
|
January 4, 2005
Competitive exclusion and coexistence for a quasilinear size-structured population model
Azmy S Ackleh, Keng Deng, Xubo Wang
Mathematical Biosciences and Engineering : MBE
|
November 17, 2019
Sensitivity equations for measure-valued solutions to transport equations
Azmy S Ackleh, Nicolas Saintier, Jakub Skrzeczkowski
Mathematical Biosciences and Engineering : MBE
|
November 17, 2019
Finite difference schemes for a structured population model in the space of measures
Azmy S Ackleh, Rainey Lyons, Nicolas Saintier
Mathematical Biosciences and Engineering : MBE
|
March 27, 2015
Finite difference approximations for measure-valued solutions of a hierarchically size-structured population model
Azmy S Ackleh, Vinodh K Chellamuthu, Kazufumi Ito
Mathematical Biosciences
|
April 2, 2013
A second-order high resolution finite difference scheme for a structured erythropoiesis model subject to malaria infection
Azmy S Ackleh, Baoling Ma, Jeremy J Thibodeaux
Journal of Biological Dynamics
|
August 11, 2012
A monotone approximation for a size-structured population model with a generalized environment
Azmy S Ackleh, Keng Deng, Jeremy J Thibodeaux
Mathematical Biosciences
|
October 3, 2006
A structured erythropoiesis model with nonlinear cell maturation velocity and hormone decay rate
Azmy S Ackleh, Keng Deng, Kazufumi Ito, et al.
Journal of Biological Dynamics
|
October 2, 2014
A second-order high-resolution finite difference scheme for a size-structured model for the spread of Mycobacterium marinum
Azmy S Ackleh, Mark L Delcambre, Karyn L Sutton
Journal of Biological Dynamics
|
January 11, 2021
A continuous-time mathematical model and discrete approximations for the aggregation of <i>β</i>-Amyloid
Azmy S Ackleh, Saber Elaydi, George Livadiotis, et al.
Page
of 6
Search research articles
Search
Showing results (21-30 of 53) with videos related to
Sort By:
Page
of 6
Journal of Mathematical Biology
|
July 29, 2003
Competitive exclusion and coexistence for pathogens in an epidemic model with variable population size
Azmy S Ackleh, Linda J S Allen
Mathematical Biosciences
|
January 4, 2005
Competitive exclusion and coexistence for a quasilinear size-structured population model
Azmy S Ackleh, Keng Deng, Xubo Wang
Mathematical Biosciences and Engineering : MBE
|
November 17, 2019
Sensitivity equations for measure-valued solutions to transport equations
Azmy S Ackleh, Nicolas Saintier, Jakub Skrzeczkowski
Mathematical Biosciences and Engineering : MBE
|
November 17, 2019
Finite difference schemes for a structured population model in the space of measures
Azmy S Ackleh, Rainey Lyons, Nicolas Saintier
Mathematical Biosciences and Engineering : MBE
|
March 27, 2015
Finite difference approximations for measure-valued solutions of a hierarchically size-structured population model
Azmy S Ackleh, Vinodh K Chellamuthu, Kazufumi Ito
Mathematical Biosciences
|
April 2, 2013
A second-order high resolution finite difference scheme for a structured erythropoiesis model subject to malaria infection
Azmy S Ackleh, Baoling Ma, Jeremy J Thibodeaux
Journal of Biological Dynamics
|
August 11, 2012
A monotone approximation for a size-structured population model with a generalized environment
Azmy S Ackleh, Keng Deng, Jeremy J Thibodeaux
Mathematical Biosciences
|
October 3, 2006
A structured erythropoiesis model with nonlinear cell maturation velocity and hormone decay rate
Azmy S Ackleh, Keng Deng, Kazufumi Ito, et al.
Journal of Biological Dynamics
|
October 2, 2014
A second-order high-resolution finite difference scheme for a size-structured model for the spread of Mycobacterium marinum
Azmy S Ackleh, Mark L Delcambre, Karyn L Sutton
Journal of Biological Dynamics
|
January 11, 2021
A continuous-time mathematical model and discrete approximations for the aggregation of <i>β</i>-Amyloid
Azmy S Ackleh, Saber Elaydi, George Livadiotis, et al.
Page
of 6