Reverse engineering of linking preferences from network restructuring

Gergely Palla; Illés Farkas; Imre Derényi; Albert László Barabási; Tamás Vicsek

doi:10.1103/PhysRevE.70.046115

Reverse engineering of linking preferences from network restructuring

Gergely Palla^*, Illés Farkas, Imre Derényi, Albert László Barabási, Tamás Vicsek

^*Corresponding author for this work

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

Abstract (may include machine translation)

We provide a method to deduce the preferences governing the restructuring dynamics of a network from the observed rewiring of the edges. Our approach is applicable for systems in which the preferences can be formulated in terms of a single-vertex energy function with [Formula presented] being the contribution of a node of degree [Formula presented] to the total energy, and the dynamics obeys the detailed balance. The method is first tested by Monte Carlo simulations of restructuring graphs with known energies; then it is used to study variations of real network systems ranging from the coauthorship network of scientific publications to the asset graphs of the New York Stock Exchange. The empirical energies obtained from the restructuring can be described by a universal function [Formula presented], which is consistent with and justifies the validity of the preferential attachment rule proposed for growing networks.

Original language	English
Article number	046115
Pages (from-to)	046115-1-046115-7
Journal	Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics
Volume	70
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevE.70.046115
State	Published - Oct 2004
Externally published	Yes

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title = "Reverse engineering of linking preferences from network restructuring",

abstract = "We provide a method to deduce the preferences governing the restructuring dynamics of a network from the observed rewiring of the edges. Our approach is applicable for systems in which the preferences can be formulated in terms of a single-vertex energy function with [Formula presented] being the contribution of a node of degree [Formula presented] to the total energy, and the dynamics obeys the detailed balance. The method is first tested by Monte Carlo simulations of restructuring graphs with known energies; then it is used to study variations of real network systems ranging from the coauthorship network of scientific publications to the asset graphs of the New York Stock Exchange. The empirical energies obtained from the restructuring can be described by a universal function [Formula presented], which is consistent with and justifies the validity of the preferential attachment rule proposed for growing networks.",

author = "Gergely Palla and Ill{\'e}s Farkas and Imre Der{\'e}nyi and Barab{\'a}si, {Albert L{\'a}szl{\'o}} and Tam{\'a}s Vicsek",

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AU - Palla, Gergely

AU - Farkas, Illés

AU - Derényi, Imre

AU - Barabási, Albert László

AU - Vicsek, Tamás

PY - 2004/10

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AB - We provide a method to deduce the preferences governing the restructuring dynamics of a network from the observed rewiring of the edges. Our approach is applicable for systems in which the preferences can be formulated in terms of a single-vertex energy function with [Formula presented] being the contribution of a node of degree [Formula presented] to the total energy, and the dynamics obeys the detailed balance. The method is first tested by Monte Carlo simulations of restructuring graphs with known energies; then it is used to study variations of real network systems ranging from the coauthorship network of scientific publications to the asset graphs of the New York Stock Exchange. The empirical energies obtained from the restructuring can be described by a universal function [Formula presented], which is consistent with and justifies the validity of the preferential attachment rule proposed for growing networks.

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Reverse engineering of linking preferences from network restructuring

Abstract (may include machine translation)

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