English

Fluctuation scaling versus gap scaling

Physics and Society 2008-12-02 v2 Biological Physics Quantitative Methods Statistical Finance

Abstract

Fluctuation scaling is observed phenomenon from complex networks through finance to ecology. It means that the variance and the mean of a specific quantity are related as \evσ2n\evnA2α\ev{\sigma^2|n}\propto \ev{n|A}^{2\alpha} with 1/2α11/2\geq \alpha \geq 1 when a parameter AA (usually the system size) is varied. AA can be the strength of the node, the capitalization of the firm or the area of the habitat. On the other hand, quantities often obey gap scaling meaning that their density function depends on, say, the system size AA as P(nA)=n1F(n/AΦ)P(n|A) = n^{-1}F(n/A^{\Phi}). This note describes that these two notions cannot coexist except when α=1\alpha = 1. In this way one can empirically exclude the possibility of gap scaling in many complex systems including population dynamics, stock market fluctuations and Internet router traffic, where α<1\alpha < 1.

Keywords

Cite

@article{arxiv.physics/0703128,
  title  = {Fluctuation scaling versus gap scaling},
  author = {Zoltan Eisler and Janos Kertesz},
  journal= {arXiv preprint arXiv:physics/0703128},
  year   = {2008}
}

Comments

2 pages, 1 figure, very largely rewritten text, most content is new