In recent years the research community has accumulated overwhelming evidence for the
emergence of complex and heterogeneous connectivity patterns in a wide range of …

From critical infrastructure to physiology and the human brain, complex systems rarely occur
in isolation. Instead, the functioning of nodes in one system often promotes or suppresses …

In this paper, a modified SIS model with an infective vector on complex networks is proposed
and analyzed, which incorporates some infectious diseases that are not only transmitted by …

In this paper, a new susceptible-infected-susceptible model with infective medium is
proposed, which describes epidemics (eg malaria) transmitted by infective media (eg …

Vector-borne epidemics are progressively becoming a global burden, especially those
related to flaviviruses, and the effects of different factors such as climate change or the …

ABSTRACT The Egyptian uprising in January 2011, widely known as the 25 January
Revolution, was initially claimed to have been caused by the internet. However, the …

This paper considers the epidemiology of two strains (I, J) of a disease spreading through a
population represented by a scale-free network. The epidemiological model is SIS and the …

In this paper, we proposed an efficient immunization—“high-risk immunization”. The
standard SIRS model was modified, respectively, on WS small-world network and BA scale …

In spite of the vast literature on spreading dynamics on complex networks, the role of local
synergy, ie, the interaction of elements that when combined produce a total effect greater …

Most diseases have multiple pathogenic strains, which may impose difficulty in combatting
the disease and lead to rich dynamics. However, their dynamical properties are not well …