Author: Materassi, Massimo
Title: Some fractal thoughts about the COVID-19 infection outbreak Cord-id: nls54x52 Document date: 2020_5_24
ID: nls54x52
Snippet: Abstract Some ideas are presented about a geometric motivation of the apparent capacity of generalized logistic equations to describe the outbreak of quite many epidemics, possibly including that of the COVID-19 infection. This interpretation pivots on the complex, possibly fractal, structure of the locus describing the “contagion event setâ€, and on what can be learnt from the models of trophic webs with “herd behaviourâ€. Under the hypothesis that the total number of cases, as a function
Document: Abstract Some ideas are presented about a geometric motivation of the apparent capacity of generalized logistic equations to describe the outbreak of quite many epidemics, possibly including that of the COVID-19 infection. This interpretation pivots on the complex, possibly fractal, structure of the locus describing the “contagion event setâ€, and on what can be learnt from the models of trophic webs with “herd behaviourâ€. Under the hypothesis that the total number of cases, as a function of time, is fitted by a solution of the Generalized Richards Model, it is argued that the exponents appearing in that differential equation, usually determined empirically, represent the geometric signature of the non-space filling, network-like locus on which contagious contacts take place.
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