Refined scaling hypothesis for anomalously diffusing processes

Anomalous diffusion in artificial and natural stochastic processes is studied through the statistics of small-scale fluctuations. It is shown that the moments of certain locally averaged quantities, such as the square or absolute increments, do not scale like power laws, as generally assumed. A much improved scaling function is deduced, in analogy with a procedure first applied to nearest-neighbour dimension estimators. Extremely accurate determination of the scaling exponents is thus possible. Our refined formula is immediately applicable to the analysis of time series in turbulence, physiology, or economics.

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Year of publication:	2001
Authors:	Badii, R. ; Talkner, P.
Published in:	Physica A: Statistical Mechanics and its Applications. - Elsevier, ISSN 0378-4371. - Vol. 291.2001, 1, p. 229-243
Publisher:	Elsevier
Subject:	Scaling \| Anomalous diffusion \| Stochastic self-affinity \| Fractional Brownian motion \| Turbulence \| EEG \| Economics

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Type of publication:	Article
Source:	RePEc - Research Papers in Economics

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