
2018ReedMathematical Models of Mosquito Populations
24 Mar 2020  Contributor(s):: Brian Winkel
2018ReedMathematical Models of Mosquito PopulationsReed, Hanna. 2018. Mathematical Models of Mosquito Populations. University of Central Florida.Honors Theses. 38 pp.ABSTRACTThe intent of this thesis is to develop ordinary differential equation models to better understandthe...

2014SmithModeling Zombies
22 Mar 2020  Contributor(s):: Brian Winkel
2014SmithEtAlModeling ZombiesSmith?, Rogert. 2014. Mathematical Modeling of Zombies. University Ottawa Press. 26 pp.AbstractKnowing how long we have before we face off with a zombie could mean the difference between life, death and zombification. Here, we use diffusion to model...

Exploring differential equation of HIV infection
21 Jun 2019   Contributor(s):: Rebecca L. Goulson
Exploring differential equation models of the HIV infectionPresentation by Rebecca L. Goulson Department of Mathematics Pacific Lutheran University Tacoma, WA, May, 2015. 67 SlidesModels presented and data analyzed to determine parameters.

6011S  HumansVsZombies
25 Oct 2018   Contributor(s):: Hope McIlwain
In this activity, students will analyze the SIR differential equations model in the context of a zombie invasion of a human population. First the students will analyze a two equation system representing only two populations, humans and zombies. Then a new population, the recovered zombies, will...

6003SSchoolFluEpidemic
28 Aug 2018   Contributor(s):: Darrell Weldon Pepper
We offer a model of the spread of flu in a school dormitory and are asked to find when the flu levels reach their peak and explain long term behavior of the spread of the flu.

2017AllaliMathModelingOfAdaptiveImmunieResponsesHBVInfection
07 Mar 2018   Contributor(s):: Karam Allali, Adil Meskaf, Abdessamad Tridane
Karam Allali, Adil Meskaf, and Abdessamad Tridane. 2018. Mathematical Modeling of the Adaptive Immune Responses in the Early Stage of the HBV Infection. International Journal of Differential Equations. Volume 2017, Article ID 6710575, 13 pagesThis is an open access article distributed under the...

2002NelsonPerelsoinDelay Differential Equation Models HIV1 Infection
09 Sep 2017   Contributor(s):: Brian Winkel
Nelson, P. W. and A. S. Perelson. 2002. Mathematical analysis of delay differential equations models of HIB1 infection. Mathematical Biosciences. 179: 7394. Abstract: Models of HIV1 infection that include intracellular delays are more accurate representations of the biology and change the...

2011CruzAponteEtAlVaccination In Influenza Epidemic
07 Sep 2017   Contributor(s):: Brian Winkel
2011CruzAponteEtAlVaccination In Influenza EpidemicCruzAponte, Maytee, Erin C McKiernan1, Marco A HerreraValdez. 2011. Mitigating effects of vaccination on influenza outbreaks given constraints in stockpile size and daily administration capacity. BMC Infectious Diseases. 11:207. 16 pp....

2009MunzEtAlWhenZombiesAttack
07 Sep 2017   Contributor(s):: Brian Winkel
Munz, Philip , Ioan Hudea, Joe Imad, Robert J. Smith. 2009. When Zombies Attack!: Mathematical modelling of an Outbreak of Zombie Infection. Pp: 133150. In Infectious Disease Modelling Research Progress. Ed: J. M. Tshuenche and C. Chiyaka. Hauppauge NY: Nova Science...