On two extensions of the canonical Feller–Spitzer distribution

On two extensions of the canonical Feller–Spitzer distribution

We introduce two extensions of the canonical Feller–Spitzer distribution from the class of Bessel densities, which comprise two distinct stochastically decreasing one-parameter families of positive absolutely continuous infinitely divisible distributions with monotone densities, whose upper tails ex...

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Bibliographic Details
Published in:Journal of statistical distributions and applications Vol. 8; no. 1
Main Authors: Vinogradov, Vladimir Vladimirovich, Paris, Richard Bruce
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 04-03-2021
Springer Nature B.V
Subjects:
Bessel functions
Humanities and Social Sciences
Hypergeometric functions
Kurtosis
Laplace transforms
Mathematics and Statistics
multidisciplinary
Parameters
Science
Skewness
Statistical Theory and Methods
Statistics
Statistics and Computing/Statistics Programs
Third International Conference on Statistical Distributions and Applications
Hypergeometric functions
Exponential convergence
Feller–Spitzer distribution
Letac–Mora reciprocity
Variance function
Stochastically monotone family
Power tail
Kurtosis
60E07 60E10 60F05
Bessel functions
Natural exponential family
Monotone density
Continuous–time Bernoulli random walk
Lévy measure
Skewness
Laplace transform
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Summary:We introduce two extensions of the canonical Feller–Spitzer distribution from the class of Bessel densities, which comprise two distinct stochastically decreasing one-parameter families of positive absolutely continuous infinitely divisible distributions with monotone densities, whose upper tails exhibit a power decay. The densities of the members of the first class are expressed in terms of the modified Bessel function of the first kind, whereas the members of the second class have the densities of their Lévy measure given by virtue of the same function. The Laplace transforms for both these families possess closed–form representations in terms of specific hypergeometric functions. We obtain the explicit expressions by virtue of the particular parameter value for the moments of the distributions considered and establish the monotonicity of the mean, variance, skewness and excess kurtosis within the families. We derive numerous properties of members of these classes by employing both new and previously known properties of the special functions involved and determine the variance function for the natural exponential family generated by a member of the second class.
ISSN:2195-5832
2195-5832
DOI:10.1186/s40488-021-00113-4