Phys Rev E. 2016 May;93(5):052310. doi: 10.1103/PhysRevE.93.052310. Epub 2016 May 25.

Self-attracting walk on heterogeneous networks.

Physical review. E

Kanghun Kim, Jaegu Kyoung, D-S Lee

PMID: 27300913 DOI: 10.1103/PhysRevE.93.052310

Abstract

Understanding human mobility in cyberspace becomes increasingly important in this information era. While human mobility, memory-dependent and subdiffusive, is well understood in Euclidean space, it remains elusive in random heterogeneous networks like the World Wide Web. Here we study the diffusion characteristics of self-attracting walks, in which a walker is more likely to move to the locations visited previously than to unvisited ones, on scale-free networks. Under strong attraction, the number of distinct visited nodes grows linearly in time with larger coefficients in more heterogeneous networks. More interestingly, crossovers to sublinear growths occur in strongly heterogeneous networks. To understand these phenomena, we investigate the characteristic volumes and topology of the cluster of visited nodes and find that the reinforced attraction to hubs results in expediting exploration first but delaying later, as characterized by the scaling exponents that we derive. Our findings and analysis method can be useful for understanding various diffusion processes mediated by human.

Publication Types

• Journal Article