Title :
The percolation process via a sinusoidal probability modulation
Author :
Chen Chui-bo ; Li Zhi-peng ; Yang Chun ; Shi Xiao-hong ; Chen Xiao-long ; Yang Cheng-cheng
Author_Institution :
State Key Lab. of Complex Electromagn. Environ. Effects on Electron. & Inf. Syst.(CEMEE), Luoyang, China
Abstract :
How clusters are aggregated have great effect on the function and dynamic of complex network. In this paper, we introduce a percolation transition model which can be described with clusters aggregated probability P(Ci) ~ sin(αCi/Cmax), where Ci is the size of the cluster, Cmax is the size of the largest cluster and α is disturbance parameter. In this article we introduce continuous, weakly and strongly discontinuous percolation transition underlying different α respectively and reveal the strongly impact of clusters´ aggregated probability. By means of numerical simulation, we find that the critical point tc shows periodic variation with increasing α. Besides, we realize that the largest gap is macroscopic when α >10.9π and the distribution of the cluster size at critical point meets the power laws which is the main feature of explosive percolation.
Keywords :
complex networks; critical points; numerical analysis; percolation; probability; cluster aggregated probability; cluster size distribution; complex network dynamic; complex network function; critical point; discontinuous percolation transition model; disturbance parameter; explosive percolation process; macroscopic gap; numerical simulation; periodic variation; power laws; sinusoidal probability modulation; Color; Electromagnetics; Erbium; Explosives; Modulation; Numerical models; Probability distribution;
Conference_Titel :
Communication Problem-Solving (ICCP), 2014 IEEE International Conference on
Print_ISBN :
978-1-4799-4246-6
DOI :
10.1109/ICCPS.2014.7062339
