Network ‘Small-World-Ness’: A Quantitative Method for Determining Canonical Network Equivalence
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Abstract
BACKGROUND: Many technological, biological, social, and information networks fall into the broad class of 'small-world' networks: they have tightly interconnected clusters of nodes, and a shortest mean path length that is similar to a matched random graph (same number of nodes and edges). This semi-quantitative definition leads to a categorical distinction ('small/not-small') rather than a quantitative, continuous grading of networks, and can lead to uncertainty about a network's small-world status. Moreover, systems described by small-world networks are often studied using an equivalent canonical network model--the Watts-Strogatz (WS) model. However, the process of establishing an equivalent WS model is…
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Keywords
- Small-world network
- Average path length
- Categorical variable
- Computer science
- Path length
- Equivalence (formal languages)
- Cluster analysis
- Weighted network
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