2016
DOI: 10.1016/j.physa.2016.06.004
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On the relationship between the Hurst exponent, the ratio of the mean square successive difference to the variance, and the number of turning points

Abstract: The long range dependence of the fractional Brownian motion (fBm), fractional Gaussian noise (fGn), and differentiated fGn (DfGn) is described by the Hurst exponent H. Considering the realisations of these three processes as time series, they might be described by their statistical features, such as half of the ratio of the mean square successive difference to the variance, A, and the number of turning points, T . This paper investigates the relationships between A and H, and between T and H. It is found numer… Show more

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Cited by 39 publications
(43 citation statements)
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“…(34) simplifies then to just ln n = n−1 n log n 4. For n = 2 14 , these values are 1.49991 and 0.14285, respectively, in perfect agreement with Fig. 3 in [14].…”
Section: Variance Of Dfgn and Abbe Value Of Fgnsupporting
confidence: 86%
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“…(34) simplifies then to just ln n = n−1 n log n 4. For n = 2 14 , these values are 1.49991 and 0.14285, respectively, in perfect agreement with Fig. 3 in [14].…”
Section: Variance Of Dfgn and Abbe Value Of Fgnsupporting
confidence: 86%
“…11(d)]. Hints that fully developed chaos behaves this way were noted in case of the Lorenz system [14,17]. With increasing r, a gradual decrease in T occurs, with wells in periodic windows [ Fig.…”
Section: Chaosmentioning
confidence: 89%
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“…In a long run, those from the Lorenz system resemble a white noise. On the other hand, the time series of the Chirikov map more resemble those of a fractional Brownian motion [32]. Therefore, the correlations between the maximal Lyapunov exponents (mLEs) and H are to be examined herein.…”
Section: Motivationmentioning
confidence: 99%
“…H is an important parameter in the description of fluid turbulence since it is related to the auto-correlation function of the velocity time series: the rate at which C( ) decreases with lag . Moreover, for self-similar (monofractal) processes, H is directly related to fractal dimension, D, by the relation: [49]. When H = 0, the average fluctuations δu exhibit a scale dependence.…”
Section: Structure Function Analysis and Hurst Exponent Estimation Fomentioning
confidence: 99%