F. Ball, D. Mollison, and G. Scalia-tomba, Epidemics with two level of mixing, The Annals of Applied Probability, vol.7, pp.46-89, 1997.

F. Ball and D. Sirl, Stochastic SIR epidemics in structured populations, Stochastic Epidemic Models with Inference

M. S. Bartlett, Measles periodicity and community size, J. Roy. Statist. Soc. Ser. A, vol.120, pp.48-70, 1957.

D. J. Daley, Some aspects of Markov chains in queueing theory and epidemiology, 1967.

R. A. Doney, A limit theorem for a class of supercritical branching processes, J. Appl. Prob, vol.9, pp.707-724, 1972.

C. Léonard, Some epidemic systems are long range interacting particle systems, Stochastic Processes in Epidemic Theory, 1990.

H. P. Mckean, A class of Markov processes associated with nonlinear parabolic equations, Proc. Nat. Acad. Sci, vol.56, 1907.

E. Pardoux, Probabilistic models of population evolution. Scaling limits and interactions, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01478843

S. Rushton and A. J. Mautner, The deterministic model of a simple epidemic for more than one community, Biometrika, vol.42, pp.126-132, 1955.

A. S. Sznitman, Topics in propagation of chaos, Ecole d'été de Probabilités de Saint-Flour XIX 1989, pp.165-261, 1464.