Quasiasymptotic expansion of distributions with applications to the Stieltjes transform

S. B. Gaikwad; M. S. Chaudhari

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Solution of mathematical models by localization

B. Stanković (2002)

Bulletin, Classe des Sciences Mathématiques et Naturelles, Sciences mathématiques

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Laplace transform of distribution-valued functions and its applications

B. Stanković (2004)

Bulletin, Classe des Sciences Mathématiques et Naturelles, Sciences mathématiques

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Between the Paley-Wiener theorem and the Bochner tube theorem

Zofia Szmydt, Bogdan Ziemian (1995)

Annales Polonici Mathematici

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We present the classical Paley-Wiener-Schwartz theorem [1] on the Laplace transform of a compactly supported distribution in a new framework which arises naturally in the study of the Mellin transformation. In particular, sufficient conditions for a function to be the Mellin (Laplace) transform of a compactly supported distribution are given in the form resembling the Bochner tube theorem [2].

Properties of the function $f (x) = x / π (x)$ .

Vlamos, Panayiotis (2001)

International Journal of Mathematics and Mathematical Sciences

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Quasiasymptotic in $𝒟_{L^{q}}^{'} (ℝ^{n})$ .

Rakić, Dušan (2007)

Novi Sad Journal of Mathematics

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Approximations of the distribution of the sum of random variables from the generalized logistic distribution

Matthev O. Ojo (2002)

Kragujevac Journal of Mathematics

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On the Mellin Transforms of Dirac’S Delta Function, The Hausdorff Dimension Function, and The Theorem by Mellin

Südland, Norbert, Baumann, Gerd (2004)

Fractional Calculus and Applied Analysis

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Mathematics Subject Classification: 44A05, 46F12, 28A78 We prove that Dirac’s (symmetrical) delta function and the Hausdorff dimension function build up a pair of reciprocal functions. Our reasoning is based on the theorem by Mellin. Applications of the reciprocity relation demonstrate the merit of this approach.

A Tauberian theorem for distributions

Jiří Čížek, Jiří Jelínek (1996)

Commentationes Mathematicae Universitatis Carolinae

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The well-known general Tauberian theorem of N. Wiener is formulated and proved for distributions in the place of functions and its Ganelius' formulation is corrected. Some changes of assumptions of this theorem are discussed, too.

On some Mixture Distributions

Nakhi, Y. Ben, Kalla, S.L. (2004)

Fractional Calculus and Applied Analysis

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The aim of this paper is to establish some mixture distributions that arise in stochastic processes. Some basic functions associated with the probability mass function of the mixture distributions, such as k-th moments, characteristic function and factorial moments are computed. Further we obtain a three-term recurrence relation for each established mixture distribution.