Jun 10, 2010 · The slowing down of spreading is found to be caused mostly by weight-topology correlations and the bursty activity patterns of individuals.
Feb 18, 2011 · The slowing down of spreading is found to be caused mainly by weight-topology correlations and the bursty activity patterns of individuals.
While communication networks show the small-world property of short paths, the spreading dynamics in them turns out slow. Here, the time evolution of ...
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The slowing down of spreading is found to be caused mainly by weight-topology correlations and the bursty activity patterns of individuals. While communication ...
Feb 18, 2011 · Small but slow world: How network topology and burstiness slow down spreading ... show that spreading slows down due to simultaneous effects.
PDF | While communication networks show the small-world property of short paths, the spreading dynamics in them turns out slow. Here, the time evolution.
In: Physical Review E. 2011 ; Vol. 83, No. 2. pp. 025102. ... Small but slow world: how network topology and burstiness slow down spreading. / Karsai, Márton; ...
Feb 18, 2011 · While communication networks show the small-world property of short paths, the spreading dynamics in them turns out slow.
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Aug 22, 2010 · Small But Slow World: How Network Topology and Burstiness Slow Down Spreading. M. Karsai,1 M. Kivelä,1 R. K. Pan,1 K. Kaski,1 J. Kertész,1, 2 ...