Literature Database Entry
schurwanz2020duality
Max Schurwanz, Peter Adam Hoeher, Sunasheer Bhattacharjee, Martin Damrath, Lukas Stratmann and Falko Dressler, "Duality between Coronavirus Transmission and Air-based Macroscopic Molecular Communication," arXiv, eess.SP, 2009.04966, September 2020.
Abstract
This contribution exploits the duality between a viral infection process and macroscopic air-based molecular communication. Airborne aerosol and droplet transmission through the human respiratory processes is modeled as an instance of a multiuser molecular communication scenario employing respiratory-event-driven molecular (variable) concentration shift keying. Modeling is aided by an experimental molecular communication testbed based on fluorescent dyes and optical detection of aerosol and droplet clouds. A macroscopic molecular communication simulator is extended and used for estimating the transmission of infectious aerosols in different environments. The work is inspired by the recent outbreak of the coronavirus pandemic.
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Max Schurwanz
Peter Adam Hoeher
Sunasheer Bhattacharjee
Martin Damrath
Lukas Stratmann
Falko Dressler
BibTeX reference
@techreport{schurwanz2020duality,
author = {Schurwanz, Max and Hoeher, Peter Adam and Bhattacharjee, Sunasheer and Damrath, Martin and Stratmann, Lukas and Dressler, Falko},
doi = {10.48550/arXiv.2009.04966},
title = {{Duality between Coronavirus Transmission and Air-based Macroscopic Molecular Communication}},
institution = {arXiv},
month = {9},
number = {2009.04966},
type = {eess.SP},
year = {2020},
}
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