Author: Alex Arenas; Wesley Cota; Jesus Gomez-Gardenes; Sergio Gómez; Clara Granell; Joan T. Matamalas; David Soriano-Panos; Benjamin Steinegger
Title: A mathematical model for the spatiotemporal epidemic spreading of COVID19 Document date: 2020_3_23
ID: knt1f78p_13
Snippet: These equations correspond to a discrete-time dynamics, in which each time-step represents a day. They are built upon previous work on Microscopic Markov-Chain Approach (MMCA) modelization of epidemic spreading dynamics [22] , but which has also been applied to other types of processes, e.g., information spreading and traffic congestion [24, 25, 32] ......
Document: These equations correspond to a discrete-time dynamics, in which each time-step represents a day. They are built upon previous work on Microscopic Markov-Chain Approach (MMCA) modelization of epidemic spreading dynamics [22] , but which has also been applied to other types of processes, e.g., information spreading and traffic congestion [24, 25, 32] .
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