@article{Blagus2015,
abstract = {Any network studied in the literature is inevitably just a sampled representative of its real-world analogue. Additionally, network sampling is lately often applied to large networks to allow for their faster and more efficient analysis. Nevertheless, the changes in network structure introduced by sampling are still far from understood. In this paper, we study the presence of characteristic groups of nodes in sampled social and information networks. We consider different network sampling techniques including random node and link selection, network exploration and expansion. We first observe that the structure of social networks reveals densely linked groups like communities, while the structure of information networks is better described by modules of structurally equivalent nodes. However, despite these notable differences, the structure of sampled networks exhibits stronger characterization by community-like groups than the original networks, irrespective of their type and consistently across various sampling techniques. Hence, rich community structure commonly observed in social and information networks is to some extent merely an artifact of sampling.},
author = {Blagus, Neli and \v{S}ubelj, Lovro and Weiss, Gregor and Bajec, Marko},
file = {:home/gw/Documents/Student PhD/Papers/Blagus et al. - 2015 - Sampling promotes community structure in social and information networks.pdf:pdf},
journal = {Phys. A Stat. Mech. its Appl.},
keywords = {communities,complex networks,network sampling,node group structure},
mendeley-groups = {PhysicaA2015 Network sampling promotes community structure/\_Paper},
pages = {15},
title = {{Sampling promotes community structure in social and information networks}},
year = {2015}
}