88 research outputs found
Ubiquitousness of link-density and link-pattern communities in real-world networks
Community structure appears to be an intrinsic property of many complex
real-world networks. However, recent work shows that real-world networks reveal
even more sophisticated modules than classical cohesive (link-density)
communities. In particular, networks can also be naturally partitioned
according to similar patterns of connectedness among the nodes, revealing
link-pattern communities. We here propose a propagation based algorithm that
can extract both link-density and link-pattern communities, without any prior
knowledge of the true structure. The algorithm was first validated on different
classes of synthetic benchmark networks with community structure, and also on
random networks. We have further applied the algorithm to different social,
information, technological and biological networks, where it indeed reveals
meaningful (composites of) link-density and link-pattern communities. The
results thus seem to imply that, similarly as link-density counterparts,
link-pattern communities appear ubiquitous in nature and design
Software systems through complex networks science: Review, analysis and applications
Complex software systems are among most sophisticated human-made systems, yet
only little is known about the actual structure of 'good' software. We here
study different software systems developed in Java from the perspective of
network science. The study reveals that network theory can provide a prominent
set of techniques for the exploratory analysis of large complex software
system. We further identify several applications in software engineering, and
propose different network-based quality indicators that address software
design, efficiency, reusability, vulnerability, controllability and other. We
also highlight various interesting findings, e.g., software systems are highly
vulnerable to processes like bug propagation, however, they are not easily
controllable
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