Assortative mixing in spatially-extended networks

Vladimir V. Makarov; Daniil V. Kirsanov; Nikita S. Frolov; Vladimir A. Maksimenko; Xuelong Li; Zhen Wang; Alexander E. Hramov; Stefano Boccaletti

doi:10.1038/s41598-018-32160-4

Assortative mixing in spatially-extended networks

Vladimir V. Makarov
, Daniil V. Kirsanov
, Nikita S. Frolov
, Vladimir A. Maksimenko
, Xuelong Li
, Zhen Wang
, Alexander E. Hramov
, Stefano Boccaletti

School of Cybersecurity

Saratov State Technical University
Saratov State University
CAS - Xi'an Institute of Optics and Precision Mechanics
National Research Council of Italy
Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

We focus on spatially-extended networks during their transition from short-range connectivities to a scale-free structure expressed by heavy-tailed degree-distribution. In particular, a model is introduced for the generation of such graphs, which combines spatial growth and preferential attachment. In this model the transition to heterogeneous structures is always accompanied by a change in the graph’s degree-degree correlation properties: while high assortativity levels characterize the dominance of short distance couplings, long-range connectivity structures are associated with small amounts of disassortativity. Our results allow to infer that a disassortative mixing is essential for establishing long-range links. We discuss also how our findings are consistent with recent experimental studies of 2-dimensional neuronal cultures.

Original language	English
Article number	13825
Journal	Scientific Reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-32160-4
State	Published - 1 Dec 2018

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title = "Assortative mixing in spatially-extended networks",

abstract = "We focus on spatially-extended networks during their transition from short-range connectivities to a scale-free structure expressed by heavy-tailed degree-distribution. In particular, a model is introduced for the generation of such graphs, which combines spatial growth and preferential attachment. In this model the transition to heterogeneous structures is always accompanied by a change in the graph{\textquoteright}s degree-degree correlation properties: while high assortativity levels characterize the dominance of short distance couplings, long-range connectivity structures are associated with small amounts of disassortativity. Our results allow to infer that a disassortative mixing is essential for establishing long-range links. We discuss also how our findings are consistent with recent experimental studies of 2-dimensional neuronal cultures.",

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T1 - Assortative mixing in spatially-extended networks

AU - Makarov, Vladimir V.

AU - Kirsanov, Daniil V.

AU - Frolov, Nikita S.

AU - Maksimenko, Vladimir A.

AU - Li, Xuelong

AU - Wang, Zhen

AU - Hramov, Alexander E.

AU - Boccaletti, Stefano

PY - 2018/12/1

Y1 - 2018/12/1

N2 - We focus on spatially-extended networks during their transition from short-range connectivities to a scale-free structure expressed by heavy-tailed degree-distribution. In particular, a model is introduced for the generation of such graphs, which combines spatial growth and preferential attachment. In this model the transition to heterogeneous structures is always accompanied by a change in the graph’s degree-degree correlation properties: while high assortativity levels characterize the dominance of short distance couplings, long-range connectivity structures are associated with small amounts of disassortativity. Our results allow to infer that a disassortative mixing is essential for establishing long-range links. We discuss also how our findings are consistent with recent experimental studies of 2-dimensional neuronal cultures.

AB - We focus on spatially-extended networks during their transition from short-range connectivities to a scale-free structure expressed by heavy-tailed degree-distribution. In particular, a model is introduced for the generation of such graphs, which combines spatial growth and preferential attachment. In this model the transition to heterogeneous structures is always accompanied by a change in the graph’s degree-degree correlation properties: while high assortativity levels characterize the dominance of short distance couplings, long-range connectivity structures are associated with small amounts of disassortativity. Our results allow to infer that a disassortative mixing is essential for establishing long-range links. We discuss also how our findings are consistent with recent experimental studies of 2-dimensional neuronal cultures.

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SN - 2045-2322

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JO - Scientific Reports

JF - Scientific Reports

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ER -

Assortative mixing in spatially-extended networks

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