id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-155475-is3su3ga	Kalogeratos, Argyris	Winning the competition: enhancing counter-contagion in SIS-like epidemic processes	2020-06-24		.txt	text/plain	2821	181	60	Motivated by social epidemics, we apply this method to a generic continuous-time SIS-like diffusion model where we allow for: i) arbitrary node transition rate functions that describe the dynamics of propagation depending on the network state, and ii) competition between the healthy (positive) and infected (negative) states, which are both diffusive at the same time, yet mutually exclusive on each node. Among them, the Largest Reduction in Infectious Edges (LRIE) [9] results to be the optimal greedy algorithm for resource allocation under limitations in the resource budget, in the N -intertwined Susceptible-Infected-Susceptible (SIS) epidemic model. In this study, we propose the Generalized Largest Reduction in Infectious Edges (gLRIE) strategy, which is adapted for the diffusion competition of recurrent epidemics, as well as nonlinearity and saturation of the functions of node transition rates.	./cache/cord-155475-is3su3ga.txt	./txt/cord-155475-is3su3ga.txt