Great cities look small

Great cities connect people; failed cities isolate people. Despite the fundamental importance of physical, face-to-face social ties in the functioning of cities, these connectivity networks are not explicitly observed in their entirety. Attempts at estimating them often rely on unrealistic over-simp...

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Veröffentlicht in:	Journal of the Royal Society interface 2015-08, Vol.12 (109), p.20150315-20150315
Hauptverfasser:	Sim, Aaron, Yaliraki, Sophia N., Barahona, Mauricio, Stumpf, Michael P. H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Humans Infrastructure Models, Theoretical Population Models Social Networks Urban Renewal
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creator	Sim, Aaron Yaliraki, Sophia N. Barahona, Mauricio Stumpf, Michael P. H.
description	Great cities connect people; failed cities isolate people. Despite the fundamental importance of physical, face-to-face social ties in the functioning of cities, these connectivity networks are not explicitly observed in their entirety. Attempts at estimating them often rely on unrealistic over-simplifications such as the assumption of spatial homogeneity. Here we propose a mathematical model of human interactions in terms of a local strategy of maximizing the number of beneficial connections attainable under the constraint of limited individual travelling-time budgets. By incorporating census and openly available online multi-modal transport data, we are able to characterize the connectivity of geometrically and topologically complex cities. Beyond providing a candidate measure of greatness, this model allows one to quantify and assess the impact of transport developments, population growth, and other infrastructure and demographic changes on a city. Supported by validations of gross domestic product and human immunodeficiency virus infection rates across US metropolitan areas, we illustrate the effect of changes in local and city-wide connectivities by considering the economic impact of two contemporary inter- and intra-city transport developments in the UK: High Speed 2 and London Crossrail. This derivation of the model suggests that the scaling of different urban indicators with population size has an explicitly mechanistic origin.
doi_str_mv	10.1098/rsif.2015.0315
format	Article
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subjects	Humans Infrastructure Models, Theoretical Population Models Social Networks Urban Renewal
title	Great cities look small
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