Tags: recovery

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  1. 2020-Winkel, Brian - Remote Teaching Module - Modeling a Nonlethal Influenza Epidemic

    21 Jun 2020 | | Contributor(s):: Brian Winkel

    We place here and in the Supporting Docs all the materials in support of the SIMIODE Remote Teaching Module - Modeling Nonlethal Influenza Epidemic.This module contains1)  (Below and separate file in Supporting Docs) A brief Teaching Guide with an overview of the content and...

  2. 2009-Haran, Murali - An introduction to models for disease dynamics. Presentation

    20 Mar 2020 | | Contributor(s):: Brian Winkel

    Haran, Murali. 2009.  An introduction to models for disease dynamics. Presentation. 68 slides.   Opening slides: Useful to model and understand disease dynamics because: Important for basic science as well as public policy. Models for infectious diseases are...

  3. 2013-Beckley, Ross; Cametria Weatherspoon; Michael Alexander; Marissa Chandler; Anthony Johnson, and Ghan S Bhatt - Modeling epidemics with differential equations.

    20 Mar 2020 | | Contributor(s):: Brian Winkel

    Ross Beckley, Cametria Weatherspoon, Michael Alexander, Marissa Chandler, Anthony Johnson, and Ghan S Bhatt. 2013. Modeling epidemics with differential equations. Class project Tennessee State University and Philander Smith University.Abstract: Abstract. The well known SIR models...

  4. 6-010-S-SocialCampaigns

    23 Sep 2018 | | Contributor(s):: Hyunsun Lee

    Mathematical epidemic models are crucial tools to understand, analyze, predict, and control infectious diseases. The Susceptible-Infected-Recovered (SIR) model is a basic compartment model, describing how an infectious disease propagates through a population. The problem is formulated as a system...