The Azimuth Project
Epidemiology study group - Syllabus
Epidemiology
Compartmental models in epidemiology , Wikipedia.

Discussion of logistic equation and Corona virus epidemiology , Azimuth Forum.

Logistic equation , Azimuth Wiki.

Linda J.S. Allen, A primer on stochastic epidemic models: formulation, numerical simulation, and analysis , Infectious Disease Modelling, 2017 May; 2(2): 128–142.

Gang Wang, Ying Zhang, Simon J. Shepherd, Clive B. Beggs, Nini Rao, Application of stochastic Petri nets for modelling the transmission of airborne Infection in Indoor Environment , Acta Medica Mediterranea, 2016, 32: 587.

Jane Flint, Vincent R. Racaniello, Glenn F. Rall, and Anna Marie Skalka, Principles of Virology, ASM Press, 2015. Volume I on molecular biology, volume II on pathogenesis and control.

Sui Huang, Institute for Systems Biology, COVID-19: Why we should all wear masks - there is new scientific rationale , medium.com.

How to make an anti-infection mask easily from paper towel , gigazine.

John Baez, Network Theory . Includes examples related to infectious disease.

Monika Heiner, From Petri nets to differential equations: an integrative approach for biochemical network analysis , Brandenburg University of Technology Cottbus, Dept. of CS, May 2005.

John Baez, Jacob Biamonte and Brendan Fong, Network theory II: stochastic Petri nets, chemical reaction networks and Feynman diagrams . Slides giving an overview of these subjects.

John C. Baez and Jacob Biamonte, Quantum techniques for stochastic mechanics , arXiv:1209.3632 [quant-ph]. Text includes treatment from the ground up of Petri nets, both stochastic and deterministic. Example includes SI, SIR and SIRS models.

Continuous-time Markov chains , Karl Sigman.

Revised on April 6, 2020 07:33:37
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David Tanzer
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