id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-103418-deogedac	Ochab, J. K.	Shift of percolation thresholds for epidemic spread between static and dynamic small-world networks	2010-11-12		.txt	text/plain	3418	182	60	title: Shift of percolation thresholds for epidemic spread between static and dynamic small-world networks The network was constructed as a 2-dimensional Watts-Strogatz model (500x500 square lattice with additional shortcuts), and the dynamics involved rewiring shortcuts in every time step of the epidemic spread. For both dynamic and static small-world we observe suppression of the average epidemic size dependence on network size in comparison with finite-size scaling known for regular lattice. Nonetheless, qualitatively the epidemic on dynamic small world behaves in the same way as on the static one for the given range of parameters (φ = 0.5 corresponds to every node in the network having on average two additional links). We have shown that introducing dynamics of the long-range links in a smallworld network significantly lowers an epidemic threshold in terms of probability of disease transmission, although the overall dependence on number of shortcuts stays the same.	./cache/cord-103418-deogedac.txt	./txt/cord-103418-deogedac.txt