1. Delayed random walk on deterministic weighted scale-free small-world network with a deep trap.
- Author
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Xu, Guangyao and Wu, Zikai
- Subjects
- *
DETERMINISTIC processes , *TRAPPING , *ANALYTICAL solutions , *RANDOM walks , *COEVOLUTION - Abstract
How to effectively control the trapping process in complex systems is of great importance in the study of trapping problem. Recently, the approach of delayed random walk has been introduced into several deterministic network models to steer trapping process. However, exploring delayed random walk on pseudo-fractal web with the co-evolution of topology and weight has remained out of reach. In this paper, we employ delayed random walk to guide trapping process on a salient deterministic weighted scale-free small-world network with the co-evolution of topology and weight. In greater detail, we first place a deep trap at one of initial nodes of the network. Then, a tunable parameter p is introduced to modulate the transition probability of random walk and dominate the trapping process. Subsequently, trapping efficiency is used as readout of trapping process and average trapping time is employed to measure trapping efficiency. Finally, the closed form solution of average trapping time (ATT) is deduced analytically, which agrees with corresponding numerical solution. The analytical solution of ATT shows that the delayed parameter p only modifies the prefactor of ATT, and keeps the leading scaling unchanged. In other words, ATT grows sublinearly with network size, whatever values p takes. In summary, the work may serves as one piece of clues for modulating trapping process toward desired efficiency on more general deterministic networks. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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