We relate the second-order structure function of a time series with the power spectrum of the original variable, taking an assumption of statistical stationarity. With this approach, we find that the structure function is strongly influenced by the large scales. The large-scale contribution and the contribution range are, respectively, 79% and 1.4 decades for a Kolmogorov -5/3 power spectrum. We show numerically that a single scale influence range, over smaller scales is about 2 decades. We argue that the structure function is not a good method to extract the scaling exponents when the data possess large energetic scales. An alternative methodology, the arbitrary order Hilbert spectral analysis which may constrain this influence within 0.3 ...
As the finite correlation time of a force driving turbulence is taken into account, a new, dimensi...
Second order structure functions are widely used to characterize turbulence in the inertial range be...
Statistical properties of forced two-dimensional turbulence generated in two different flow domains ...
International audienceIn previous work [Huang et al., PRE 82, 26319, 2010], we found that the passiv...
The scaling laws of the temperature structure functions and their relation with those of velocity ha...
International audienceIn this paper we present an extended version of Hilbert-Huang transform, namel...
The statistics of signal increments are commonly used in order to test for possible intermittent pro...
The global probabilistic structure of fully developed turbulence is predicted on the ground of the h...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...
The well-known translation between the power law of energy spectrum and that of the correlation func...
The behavior of the second-order Lagrangian structure functions on state-of-the-art numerical data b...
In statistically stationary conditions, the turbulent energy spectrum in a high Reynolds number flow...
International audienceIn fully developed turbulence, the velocity field possesses long-range correla...
In this letter we report experimental evidence about the possibility to derive the $n$-order structu...
Utilizing synthetically generated random variates and laboratory measurements, we document the inher...
As the finite correlation time of a force driving turbulence is taken into account, a new, dimensi...
Second order structure functions are widely used to characterize turbulence in the inertial range be...
Statistical properties of forced two-dimensional turbulence generated in two different flow domains ...
International audienceIn previous work [Huang et al., PRE 82, 26319, 2010], we found that the passiv...
The scaling laws of the temperature structure functions and their relation with those of velocity ha...
International audienceIn this paper we present an extended version of Hilbert-Huang transform, namel...
The statistics of signal increments are commonly used in order to test for possible intermittent pro...
The global probabilistic structure of fully developed turbulence is predicted on the ground of the h...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...
The well-known translation between the power law of energy spectrum and that of the correlation func...
The behavior of the second-order Lagrangian structure functions on state-of-the-art numerical data b...
In statistically stationary conditions, the turbulent energy spectrum in a high Reynolds number flow...
International audienceIn fully developed turbulence, the velocity field possesses long-range correla...
In this letter we report experimental evidence about the possibility to derive the $n$-order structu...
Utilizing synthetically generated random variates and laboratory measurements, we document the inher...
As the finite correlation time of a force driving turbulence is taken into account, a new, dimensi...
Second order structure functions are widely used to characterize turbulence in the inertial range be...
Statistical properties of forced two-dimensional turbulence generated in two different flow domains ...