Fractional moments have been investigated by many authors to represent the density of univariate and bivariate random variables in different contexts. Fractional moments are indeed important when the density of the random variable has inverse power-law tails and, consequently, it lacks integer order moments. In this paper, starting from the Mellin transform of the characteristic function and by fractional calculus method we present a new perspective on the statistics of random variables. Introducing the class of complex moments, that include both integer and fractional moments, we show that every random variable can be represented within this approach, even if its integer moments diverge. Applications to the statistical characterization of ...
In this paper the solution of the Fokker Planck (FPK) equation in terms of (complex) fractional mome...
In this paper the solution of the Fokker Planck (FPK) equation in terms of (complex) fractional mome...
Characteristic Functions (cf) have been used to establish the convergence of several independent and...
Fractional moments have been investigated by many authors to represent the density of univariate and...
The aim of this paper is the probabilistic representation of the probability density function (PDF) ...
In this paper, the classical problem of the probabilistic characterization of a random variable is r...
The aim of this thesis is to formulate issues regarding fractional mo- ments of random variables. Fr...
The statistical meaning of higher ΔN (p) (p = 1, 2, ...) and fractional ΔN (p) (0 < p < ∞) moments f...
In this paper, the probabilistic characterization of a nonlinear system enforced by Poissonian white...
In this paper, a new perspective for the representation of both the power spectral density and the c...
In this chapter the solution of Fokker-Planck-Kolmogorov type equations is pursued with the aid of C...
New methods are being presented for statistical treatment of different random variables with unknown...
In this paper, the Path Integral solution is developed in terms of complex moments. The method is ap...
Abstract: A general method that can be used for the study of a discrete and finite random variable i...
In this paper the solution of the Fokker Planck (FPK) equation in terms of (complex) fractional mome...
In this paper the solution of the Fokker Planck (FPK) equation in terms of (complex) fractional mome...
Characteristic Functions (cf) have been used to establish the convergence of several independent and...
Fractional moments have been investigated by many authors to represent the density of univariate and...
The aim of this paper is the probabilistic representation of the probability density function (PDF) ...
In this paper, the classical problem of the probabilistic characterization of a random variable is r...
The aim of this thesis is to formulate issues regarding fractional mo- ments of random variables. Fr...
The statistical meaning of higher ΔN (p) (p = 1, 2, ...) and fractional ΔN (p) (0 < p < ∞) moments f...
In this paper, the probabilistic characterization of a nonlinear system enforced by Poissonian white...
In this paper, a new perspective for the representation of both the power spectral density and the c...
In this chapter the solution of Fokker-Planck-Kolmogorov type equations is pursued with the aid of C...
New methods are being presented for statistical treatment of different random variables with unknown...
In this paper, the Path Integral solution is developed in terms of complex moments. The method is ap...
Abstract: A general method that can be used for the study of a discrete and finite random variable i...
In this paper the solution of the Fokker Planck (FPK) equation in terms of (complex) fractional mome...
In this paper the solution of the Fokker Planck (FPK) equation in terms of (complex) fractional mome...
Characteristic Functions (cf) have been used to establish the convergence of several independent and...