Cascading failure in Watts–Strogatz small-world networks

We study a one-dimensional sandpile model in small-world networks with long-range links either by introducing them randomly to fixed connection topology (quenched randomness) or to temporary connection topology (annealed randomness) between cells to allow a grain to topple from a cell to a neighbour

Cascading failures occur commonly in congested complex networks, where it may be expressed as the process of generation, diffusion and dissipation of congestion. Different from betweeness centrality, we introduce congestion effects to determine the load on the node. In terms of user equilibrium cond

Investigations of small world contact networks, defined as networks with a short characteristic path length and a substantial local clustering of contacts in the neighborhood of each node, have emphasized the process performance of such networks. The argument that large-scale, small world, contact n

We consider a firm's profit maximization problem when the demand for the product is created by referrals between consumers connected in a small world network. We generate a small world network by applying the rewiring algorithm of Watts and Strogatz and incorporate it into the profit maximization pr