Author: Jo, Hang-Hyun; Moon, Hie-Tae; Baek, Seung Ki
Title: Immunization Dynamics on a 2-layer Network Model Cord-id: 6x45ger3 Document date: 2003_10_16
ID: 6x45ger3
Snippet: We introduce a 2-layer network model for the study of the immunization dynamics in epidemics. Spreading of an epidemic is modeled as an excitatory process in a small-world network (body layer) while immunization by prevention for the disease as a dynamic process in a scale-free network (head layer). It is shown that prevention indeed turns periodic rages of an epidemic into small fluctuation. The study also reveals that, in a certain situation, prevention actually plays an adverse role and helps
Document: We introduce a 2-layer network model for the study of the immunization dynamics in epidemics. Spreading of an epidemic is modeled as an excitatory process in a small-world network (body layer) while immunization by prevention for the disease as a dynamic process in a scale-free network (head layer). It is shown that prevention indeed turns periodic rages of an epidemic into small fluctuation. The study also reveals that, in a certain situation, prevention actually plays an adverse role and helps the disease survive. We argue that the presence of two different characteristic time scales contributes to the immunization dynamics observed.
Search related documents:
Co phrase search for related documents- acute respiratory syndrome and lower expect: 1
Co phrase search for related documents, hyperlinks ordered by date