=Paper= {{Paper |id=Vol-2544/shortpaper8 |storemode=property |title=Network View of Lassa Fever Spreading Through Population West Africa |pdfUrl=https://ceur-ws.org/Vol-2544/shortpaper8.pdf |volume=Vol-2544 |authors=Victor Zogbochi,Thierry Edoh,Anoni Ameduite,Fidele Anekohou |dblpUrl=https://dblp.org/rec/conf/irehi/Anekohou18 }} ==Network View of Lassa Fever Spreading Through Population West Africa== https://ceur-ws.org/Vol-2544/shortpaper8.pdf
                     Network View of Lassa fever Spreading through
                                Population West Africa

                       Victor Zogbochi, Thierry Edoh, Anoni Ameduite, Fidele Anekohou



                     Abstract. Infectious disease expansion among the population has attracted
                     many researches trying to know who gets sick, how best to prevent a large out-
                     break. For many years, mathematicians used models to approximate answers to
                     these questions. However, these older models used simplifying assumptions
                     about the host population that drastically reduced the accuracy of the model’s
                     predictions. Recently, researchers have introduced graph theory to simulate the
                     spread of disease and results reflect more the reality. This study considers the
                     sample population as a network in which each person represents a node and the
                     edges represent social relations. To simulate the propagation of an epidemic,
                     each new infected node becomes the center of the network and communities
                     representing family members, workplace members, friends, traditions and hos-
                     pital treatment body and others are formed around it. The spreading rate is
                     evaluated using the visit probability from each community based on the strength
                     of the relation he may have with them. The model is evaluated using the charac-
                     teristics and data from Lassa fever in west Africa. The accuracy of simulation
                     results with real expansion of the epidemic disease demonstrates the model's ef-
                     ficiency.

                     Keywords: Infectious Disease, Network, Visit Probability, Simulation, Spread.




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International (CC BY 4.0) IREHI 2018 : 2nd IEEE International Rural and Elderly Health Informatics Conference