Title :
Epidemic spreading on weighted contact networks
Author :
Schumm, P. ; Scoglio, C. ; Gruenbacher, D. ; Easton, T.
Author_Institution :
EECE, Kansas State Univ., Manhattan, KS
Abstract :
The study of epidemics is a crucial issue to several areas. An epidemic can have devastating economic and social consequences. A single crop disease in Kansas could destroy the yearly income of many farmers. Previous work using graph theory has determined a universal epidemic threshold found in the graph topology for a binary contact network in the compartmental susceptible-infected (SI) analysis. We expand this threshold to a more realistic measure. A binary uniform level of contact within a society is too idealistic and an improved threshold is found in allowing a spectrum of contact within a contact network. The expanded contact network also allows for asymmetric contact such as a mother caring for her child. Further study in this area should lead to improved simulators, disease modeling, policies and control of infectious diseases and viruses.
Keywords :
diseases; graph theory; microorganisms; network theory (graphs); binary contact network; compartmental susceptible-infected analysis; crop disease; disease modeling; economic consequences; epidemic spreading; graph topology; infectious diseases; social consequences; viruses; weighted contact networks; Aggregates; Biological system modeling; Crops; Diseases; Graph theory; Immune system; Network topology; Permission; Road transportation; Viruses (medical); Epidemiology; agent based; aggregate; dynamic parallel network simulation; weighted contact networks;
Conference_Titel :
Bio-Inspired Models of Network, Information and Computing Systems, 2007. Bionetics 2007. 2nd
Conference_Location :
Budapest
Print_ISBN :
978-963-9799-05-9
Electronic_ISBN :
978-963-9799-05-9
DOI :
10.1109/BIMNICS.2007.4610111
