Sandpile on directed small-world networks

The effect of directionality on the information propagation in a contagion model with complex propagation, i.e., that takes into account the need for simultaneous exposure to multiple activation sources, is studied. While it is known that complex propagation is blocked with increasing network random

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

The dynamics of the blackmail propagation model based on small-world networks is investigated. It is found that for a given transmitting probability l the dynamical behavior of blackmail propagation transits from linear growth type to logistical growth one with the network randomness p increases. Th

Avalanche dynamics is an indispensable feature of complex systems. Here, we study the self-organized critical dynamics of avalanches on scale-free networks with degree exponent through the Bak-Tang-Wiesenfeld (BTW) sandpile model. The threshold height of a node i is set as k 1-Á i with 0 6 Á ¡ 1, wh