Author: Christos Nicolaides; Demetris Avraam; Luis Cueto-Felgueroso; Marta C. González; Ruben Juanes
Title: Hand-hygiene mitigation strategies against global disease spreading through the air transportation network Document date: 2019_1_26
ID: l353fvsp_4
Snippet: We build a computational model that simulates the mobility of travelers through the air transportation system, coupled with the propagation of a hypothetical infectious disease. Using the OAG data, we first generate the worldwide air transportation network, where the nodes are the 2500 busiest airports and the links between them are given by the connections between airports for which flights exist in the dataset. The network describes a heterogen.....
Document: We build a computational model that simulates the mobility of travelers through the air transportation system, coupled with the propagation of a hypothetical infectious disease. Using the OAG data, we first generate the worldwide air transportation network, where the nodes are the 2500 busiest airports and the links between them are given by the connections between airports for which flights exist in the dataset. The network describes a heterogeneous metapopulation of airports where each individual airport is a subpopulation of individuals 30, 31 . We further develop a human mobility model to track the stochastic routes of traveling agents through the air transportation network. We finally implement a compartmental epidemic model to track the reaction dynamics of infection contagions as well as the hand washing related behavior of the traveling agents.
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