Travel distance, frequency of return, and the spread of disease
Author(s)
Heine, Cate; O’Keeffe, Kevin P.; Santi, Paolo; Yan, Li; Ratti, Carlo
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Human 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⋅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⋅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⋅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.
Date issued
2023-08-28Department
Senseable City LaboratoryPublisher
Springer Science and Business Media LLC
Citation
Heine, C., O’Keeffe, K.P., Santi, P. et al. Travel distance, frequency of return, and the spread of disease. Sci Rep 13, 14064 (2023).
Version: Final published version
ISSN
2045-2322
Keywords
Multidisciplinary
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