Parallel algorithm for simulating the spatial transmission of Influenza in EpiGraph

Gonzalo Martín, Maria Cristina Marinescu, David E. Singh, Jesús Carretero

Producció científica: Capítol de llibreContribució a congrés/conferènciaAvaluat per experts

1 Citació (Scopus)

Resum

This paper introduces an approach to modeling and simulating the propagation of flu-like infectious diseases over large, widely spread urban areas connected by transportation networks. We incorporate geographic location and a transportation model into our region-based, closed-world EpiGraph simulator to realistically model the movement of the virus between different geographic regions. The resulting simulator can assist in understanding how outbreaks propagate between far apart regions due to the movement of people outside their base location. This paper describes the MPI-based implementation of EpiGraph and its performance evaluation when simulating large-scale scenarios. We evaluate the simulator both on a distributed memory system and on a shared memory system.

Idioma originalAnglès
Títol de la publicacióProceedings of the 20th European MPI Users' Group Meeting, EuroMPI 2013
EditorAssociation for Computing Machinery
Pàgines205-210
Nombre de pàgines6
ISBN (imprès)9788461651337
DOIs
Estat de la publicacióPublicada - 2013
Publicat externament
Esdeveniment20th European MPI Users' Group Meeting, EuroMPI 2013 - Madrid, Spain
Durada: 15 de set. 201318 de set. 2013

Sèrie de publicacions

NomACM International Conference Proceeding Series

Conferència

Conferència20th European MPI Users' Group Meeting, EuroMPI 2013
País/TerritoriSpain
CiutatMadrid
Període15/09/1318/09/13

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