Author:
Heine Cate,O’Keeffe Kevin P.,Santi Paolo,Yan Li,Ratti Carlo
Abstract
AbstractHuman mobility is a key driver of infectious disease spread. Recent literature has uncovered a clear pattern underlying the complexity of human mobility in cities: $$r \cdot f$$
r
·
f
, the product of distance traveled r and frequency of return f per user to a given location, is invariant across space. This paper asks whether the invariant $$r\cdot f$$
r
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f
also serves as a driver for epidemic spread, so that the risk associated with human movement can be modeled by a unifying variable $$r\cdot f$$
r
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f
. We use two large-scale datasets of individual human mobility to show that there is in fact a simple relation between r and f and both speed and spatial dispersion of disease spread. This discovery could assist in modeling spread of disease and inform travel policies in future epidemics—based not only on travel distance r but also on frequency of return f.
Funder
Senseable City Lab Consortium
Publisher
Springer Science and Business Media LLC