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 (part 3), Azimuth Blog. Includes tutorial material on application of Petri nets to discrete SI and SIR models.
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.