id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-010739-28qfmj9x	Sherborne, N.	Bursting endemic bubbles in an adaptive network	2018-04-09		.txt	text/plain	3350	178	55	Adaptive network models that account for both epidemic and behavioral change have found oscillations, but in an extremely narrow region of the parameter space, which contrasts with intuition and available data. In this paper we propose a simple susceptible-infected-susceptible epidemic model on an adaptive network with time-delayed rewiring, and show that oscillatory solutions are now present in a wide region of the parameter space. [13] showed that cutting links between susceptible and infected individuals can lead to epidemic reemergence, with long periods of low disease prevalence punctuated by large outbreaks. Figure 2 (d) illustrates this behavior both in simulation and in the meanfield model (4) , showing how after the initial outbreak each new wave of infection is preceded by the recovery of network connectivity. Furthermore, since rewiring nodes choose their new neighbors uniformly at random from all available susceptible nodes, the initial network topology itself is transient, as shown in Fig. 4 , and, as a result, over time our model becomes more relevant.	./cache/cord-010739-28qfmj9x.txt	./txt/cord-010739-28qfmj9x.txt