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Network ‘Small-World-Ness’: A Quantitative Method for Determining Canonical Network Equivalence

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  • Mark D Humphries
  • Kevin Gurney

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 imprecise and there is a pressing need to discover ways in which this equivalence may be quantified. Methodology/Principal Findings: We defined a precise measure of ‘small-world-ness’ S based on the trade off between high local clustering and short path length. A network is now deemed a ‘small-world’ if S>1 - an assertion which may be tested statistically. We then examined the behavior of S on a large data-set of real-world systems. We found that all these systems were linked by a linear relationship between their S values and the network size n. Moreover, we show a method for assigning a unique Watts-Strogatz (WS) model to any real-world network, and show analytically that the WS models associated with our sample of networks also show linearity between S and n. Linearity between S and n is not, however, inevitable, and neither is S maximal for an arbitrary network of given size. Linearity may, however, be explained by a common limiting growth process. Conclusions/Significance: We have shown how the notion of a small-world network may be quantified. Several key properties of the metric are described and the use of WS canonical models is placed on a more secure footing.

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  • Mark D Humphries & Kevin Gurney, 2008. "Network ‘Small-World-Ness’: A Quantitative Method for Determining Canonical Network Equivalence," PLOS ONE, Public Library of Science, vol. 3(4), pages 1-10, April.
    • Handle: RePEc:plo:pone00:0002051
    DOI: 10.1371/journal.pone.0002051
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    References listed on IDEAS

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    1. Janssen, Marco A. & Jager, Wander, 2001. "Fashions, habits and changing preferences: Simulation of psychological factors affecting market dynamics," Journal of Economic Psychology, Elsevier, vol. 22(6), pages 745-772, December.
    2. Little, L.R. & McDonald, A.D., 2007. "Simulations of agents in social networks harvesting a resource," Ecological Modelling, Elsevier, vol. 204(3), pages 379-386.
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    Cited by:

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    3. Abbasiharofteh, Milad & Kogler, Dieter F. & Lengyel, Balázs, 2023. "Atypical combinations of technologies in regional co-inventor networks," EconStor Open Access Articles and Book Chapters, ZBW - Leibniz Information Centre for Economics, vol. 52(10), pages 1-1.
    4. Andrea Avena-Koenigsberger & Xiaoran Yan & Artemy Kolchinsky & Martijn P van den Heuvel & Patric Hagmann & Olaf Sporns, 2019. "A spectrum of routing strategies for brain networks," PLOS Computational Biology, Public Library of Science, vol. 15(3), pages 1-24, March.
    5. Commander, Simon & Poupakis, Stavros, 2020. "Political Networks across the Globe," IZA Discussion Papers 13103, Institute of Labor Economics (IZA).
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    7. Heng Chen, 2023. "A lexical network approach to second language development," Palgrave Communications, Palgrave Macmillan, vol. 10(1), pages 1-9, December.
    8. Weiwei Yan & Xin Wen & Yin Zhang & Sonali Kudva & Qian Liu, 2023. "The dynamics of Q&A in academic social networking sites: insights from participants, interaction network, response time, and discipline differences," Scientometrics, Springer;Akadémiai Kiadó, vol. 128(3), pages 1895-1922, March.
    9. Mayerhoffer, Daniel & Schulz-Gebhard, Jan, 2023. "Social segregation, misperceptions, and emergent cyclical choice patterns," BERG Working Paper Series 186, Bamberg University, Bamberg Economic Research Group.
    10. David Samu & Anil K Seth & Thomas Nowotny, 2014. "Influence of Wiring Cost on the Large-Scale Architecture of Human Cortical Connectivity," PLOS Computational Biology, Public Library of Science, vol. 10(4), pages 1-24, April.
    11. Ramirez-Arellano, Aldo & Hernández-Simón, Luis Manuel & Bory-Reyes, Juan, 2020. "A box-covering Tsallis information dimension and non-extensive property of complex networks," Chaos, Solitons & Fractals, Elsevier, vol. 132(C).

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