id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-322862-dcb237an	Bekiros, Stelios	SBDiEM: A new Mathematical model of Infectious Disease Dynamics	2020-04-23		.txt	text/plain	8122	598	59	A worldwide multi-scale interplay among a plethora of factors, ranging from micro-pathogens and individual or population interactions to macro-scale environmental, socio-economic and demographic conditions, entails the development of highly sophisticated mathematical models for robust representation of the contagious disease dynamics that would lead to the improvement of current outbreak control strategies and vaccination and prevention policies. Our study presents for the …rst time a new stochastic mathematical model for describing infectious dynamics and tracking virus temporal transmissibility on 3-dimensional space (earth). As a matter of fact, it introduces a novel approach to mathematical modelling of infectious dynamics of any disease, and sets a starting point for conducting simulations, forecasting and nowcasting investigations based on real-world stereographic and spherical tracking on earth. In what follows, we compute the transition and transmission density for the X t ; t 0, and we derive the stochastic di¤erential equations that govern the infectious disease dynamics for X t ; t 0 in those local coordinates.	./cache/cord-322862-dcb237an.txt	./txt/cord-322862-dcb237an.txt