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CUUS2079-07 CUUS2079-Zafarani 978 1 107 01885 3 January 13, 2014 17:17
202 Information Diffusion in Social Mediaassume that (1) no contact network information is available and (2) the
process by which hosts get infected is unknown. These models can be
applied to situations in social media where the decision process has a
certain uncertainty to it or is ambiguous to the analyst.7.4.1 Definitions
Since there is no network, we assume that we have a population where the
disease is being spread. LetNdefine the size of this crowd. Any member
of the crowd can be in either one of three states:- Susceptible: When an individual is in the susceptible state, he or she
can potentially get infected by the disease. In reality, infections can
come from outside the population where the disease is being spread
(e.g., by genetic mutation, contact with an animal, etc.); however, for
CLOSED- simplicity, we make aclosed-world assumption, where susceptible
WORLD
ASSUMPTION
individuals can only get infected by infected people in the population.
We denote the number of susceptibles at timetasS(t) and the fraction
of the population that is susceptible ass(t)=S(t)/N.- Infected: An infected individual has the chance of infecting suscep-
tible parties. LetI(t) denote the number of infected individuals at
timet, and leti(t) denote the fraction of individuals who are infected,
i(t)=I(t)/N. - Recovered (or Removed): These are individuals who have either
recovered from the disease and hence have complete or partial immu-
nity against the infection or were killed by the infection. LetR(t)
denote the size of this set at timetandr(t) the fraction recovered,
r(t)=R(t)/N.
Clearly,N=S(t)+I(t)+R(t) for allt. Since we are assuming that
there is some level of randomness associated with the values ofS(t),I(t),
andR(t), we try to deal with expected values and assumeS,I, andR
represent these at timet.
7.4.2 SI Model
We start with the most basic model. In this model, the susceptible individuals
get infected, and once infected, they will never get cured. Denoteβas the
contact probability. In other words, the probability of a pair of people
meeting in any time step isβ. So, ifβ=1, everyone comes into contact
with everyone else, and ifβ=0, no one meets another individual. Assume