Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2010-02-17
Phys. Rev. Lett., 104, 108702 (2010)
Physics
Condensed Matter
Statistical Mechanics
4 pages, 4 figures. Accepted in Phys. Rev. Lett. (2010)
Scientific paper
10.1103/PhysRevLett.104.108702
Why are most empirical networks, with the prominent exception of social ones, generically degree-degree anticorrelated, i.e. disassortative? With a view to answering this long-standing question, we define a general class of degree-degree correlated networks and obtain the associated Shannon entropy as a function of parameters. It turns out that the maximum entropy does not typically correspond to uncorrelated networks, but to either assortative (correlated) or disassortative (anticorrelated) ones. More specifically, for highly heterogeneous (scale-free) networks, the maximum entropy principle usually leads to disassortativity, providing a parsimonious explanation to the question above. Furthermore, by comparing the correlations measured in some real-world networks with those yielding maximum entropy for the same degree sequence, we find a remarkable agreement in various cases. Our approach provides a neutral model from which, in the absence of further knowledge regarding network evolution, one can obtain the expected value of correlations. In cases in which empirical observations deviate from the neutral predictions -- as happens in social networks -- one can then infer that there are specific correlating mechanisms at work.
Johnson Samuel
Marro Joaquin
Munoz Miguel A.
Torres Joaquin J.
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